@Comment{THE COMMENTS IN BIBTEX ARE IMPLEMENTED THIS WAY!}
@STRING(OE="Ocean Engineering")
@STRING{AA    = "Astron. Astrophys."}
@STRING{ACA   = "Extraits des comptes rendus des s\'eances de l'Acad\'emie des Sciences"}
@STRING{AG    = "Adv. Geophys."}
@STRING{AIAAJ = "AIAA J."}
@STRING{AIAAP = "AIAA Pap."}
@STRING{AMR   = "Appl. Mech. Rev."}
@STRING{ARFM  = "Annu. Rev. Fluid Mech."}
@STRING{ARAA  = "Annu. Rev. Astron. Astrophy."}
@STRING{AMCFD = "Advanced Methods for Computational Fluid Dynamics"}
@STRING{AMC  =  "Applied Mathematics and Computations"}
@STRING{ANM  =  "Applied Numerical Mathematics"}
@STRING{BAPS  = "Bull. Am. Phys. Soc."}
@STRING{CUP   = "Cambridge University Press"}
@STRING{CMAME = "Comput. Methods Appl. Mech. Engrg."}
@STRING{DI    = "Dantec Information"}
@STRING{EF    = "Expts. Fluids"}
@STRING{EJMF  = "Eur. J. Mech. B/Fluids"}
@STRING{IJHFF = "Int. J. Heat and Fluid Flow"}
@STRING{IJHMT = "Int. J. Heat and Mass Transfer"}
@STRING{IJIE  = "Int. J. Impact Engng."}
@STRING{IJNMF = "Int. J. Numer. Methods Fluids"}
@STRING{IJNME = "Int. J. Numer. Methods Engrg."}
@STRING{INPG  = "Institut National Polytechnique Grenoble"}
@STRING{JA   = "J. Aircraft"}
@STRING{JAM   = "J. Applied Mech."}
@STRING{JAMTP = "J. Appl. Mech. Tech. Phys."}
@STRING{JAP   = "J. App. Phys."}
@STRING{JAS   = "J. Atmos. Sci."}
@STRING{JCP   = "J. Comp. Phys."}
@STRING{JCAM   = "J. Computational and Applied Mathematics"}
@STRING{JFE   = "J. Fluids Engine."}
@STRING{JFM   = "J. Fluid Mech."}
@STRING{JHE   = "J. Hydraulic Engineering"}
@STRING{JM    = "Journal de M\'ecanique"}
@STRING{JOT    = "Journal of Turbulence"}
@STRING{JRNBS = "J. Res. Nat. Bur. Standards"}
@STRING{JTAM  = "J. Theo. and Appl. Mech."}
@STRING{JWEIA    = "J. Wind Engng. Indust. Aerodyn."}
@STRING{MC    = "Math. Comp."}
@STRING{ME    = "Meccanica"}
@STRING{MRP   = "Mathematics Reports and Preprints"}
@STRING{MWR   = "Mon. Weather Rev."}
@STRING{NACA  = "NACA"}
@STRING{PFA   = "Phys. Fluids A"}
@STRING{PFL   = "Phys. Fluids Lett."}
@STRING{PFO   = "Phys. Fluids"}
@STRING{PRA   = "Phys. Review A"}
@STRING{PRE   = "Phys. Review E"}
@STRING{PRL   = "Phys. Review Lett."}
@STRING{PTRS  = "Phil. Trans. Roy. Soc."}
@STRING{QJRMS = "Q. J. R. Meteorol. Soc."}
@STRING{RA    = "Rech. Aeros."}
@STRING{RF    = "Rapport Final"}
@STRING{SJAP  = "Sov. J. Appl. Phys."}
@STRING{SSSR  = "Dokl. Akad. Nauk. SSSR"}
@STRING{SV    = "Springer-Verlag"}
@STRING{TAM   = "Theoret. and Applied Mech."}
@STRING{TAJ   = "The Astrophysical Journal"}
@STRING{TCFD  = "Theoret. Comput. Fluid Dynamics"}


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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%                                      SPH
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%


@ARTICLE{abdomaleski2004,
   AUTHOR="",
   TITLE="",
   JOURNAL="",
   VOLUME=,
   NUMBER="",
   PAGES="",
   YEAR=,
   NOTE="{ }"
}

@TECHREPORT{abramson1966,
   AUTHOR="Abramson, H.M.",
   TITLE="The Dynamic Behavior of Liquids in Moving Containers",
   INSTITUTION="NASA National Aeronautics and Space Administration, Washington D.C.",
   VOLUME="SP-106",
   YEAR=1966,
}

@inproceedings{adiego_vivaracho,
    author = {Adiego-Rodr\'{\i}guez, J. and Vivaracho-Pascual, C. E.},
    booktitle = {Quinta Jornada sobre Aprendizaje Cooperativo del GIAC},
    citeulike-article-id = {6609251},
    isbn = {84-689-2640-X},
    keywords = {equipo},
    location = {Bilbao},
    month = {Junio},
    organization = {Grupo de Inter\'{e}s en Aprendizaje Cooperativo, Universidad de Deusto},
    posted-at = {2010-01-31 20:20:10},
    priority = {2},
    title = {Una experiencia de {AC} en {F}undamentos de {I}nform\'{a}tica en {I}ngenieria {T}\'{e}cnica {I}ndustrial},
    year = {2005}
}

@techreport{aiaa_1995,
    author={AIAA},
    year={1995},
    title={Assessment of the Wind Tunnel Data Uncertainty},
    institution={AIAA},
    number={AIAA S-071-1995.}
}

@article{akyildiz_unal_oe_2005,
    author={Hakan Akyildiz and Erdem \"{U}nal},
    year={2005},
    month={8},
    title={Experimental investigation of pressure distribution on a rectangular tank due to the liquid sloshing},
    journal={Ocean Engineering},
    volume={32},
    number={11-12},
    pages={1503-1516},
    abstract={Pressure variations and 3D effects on liquid sloshing loads in tanks have been carried out experimentally. Recently, considerable advances have been made in the development of numerical techniques for studying the liquid sloshing on large structures. However, there is a lack of high quality experimental data that may be used for validating the analytical and numerical solutions obtained. This paper describes the results of the research project conducted at the Hydroulics Laboratory of Civil Engineering Faculty of Istanbul Technical University. The primary objective of the project is to investigate the pressure distributions at different locations and 3D effects on liquid sloshing. In this purpose, an experimental setup is designed to study the non-linear behavior and damping characteristics of liquid sloshing in partially filled 3D rectangular tank. Both several configurations of baffled and unbaffled tanks are studied.},
    keywords={Pressures variations; Free surface flow; 3D effects on sloshing loads; Experimental study}
}
}

@article{akyildiz_unal_oe_2006,
    author={Hakan Akyildiz and N. Erdem \"{U}nal},
    year={2006},
    month={11},
    title={Sloshing in a three-dimensional rectangular tank: Numerical simulation and experimental validation},
    journal={Ocean Engineering},
    volume={33},
    number={16},
    pages={2135-2149},
    abstract={Pressure variations and three-dimensional effects on liquid sloshing loads in a moving partially filled rectangular tank have been carried out numerically and experimentally. A numerical algorithm based on the volume of fluid (VOF) technique is used to study the non-linear behavior and damping characteristics of liquid sloshing. A moving coordinate system is used to include the non-linearity and avoid the complex boundary conditions of moving walls. The numerical model solves the complete Navier–Stokes equations in primitive variables by using of the finite difference approximations. In order to mitigate a series of discrete impacts, the signal computed is averaged over several time steps. In order to assess the accuracy of the method used, computations are compared with the experimental results. Several configurations of both baffled and unbaffled tanks are studied. Comparisons show good agreement for both impact and non- impact type slosh loads in the cases investigated.},
    keywords={Three-dimensional free surface flow; 3D effects on sloshing loads; Navier–Stokes equations; Volume of fluid technique; Finite difference method; Pressures variations; Experimental studies}
}
}



@inproceedings{alonso_etal_jenui_trabajo_grupo,
    author = {Alonso, C. E. and Fern\'{a}ndez-Combarro, E. and Monta\~{n}a, J. L.},
    booktitle = {XIV Jornadas de Ense\~{n}anza Universitaria de la Inform\'{a}tica(JENUI)},
    citeulike-article-id = {6646258},
    keywords = {equipo},
    location = {Granada},
    organization = {Universidad de Granada},
    posted-at = {2010-02-09 14:47:58},
    priority = {2},
    title = {Una propuesta gen\'{e}rica de trabajo en grupo y su aplicaci\'{o}n en una asignatura de fundamentos te\'{o}ricos de la {I}nform\'{a}tica},
    year = {2008}
}

@electronic{libroblanco_ind,
    author = "ANECA",
    title = "Libro {B}lanco. {T}itulaciones de {I}ngenier\'{\i}a {R}ama {I}ndustrial ({P}ropuesta {E}scuelas {T}\'{e}cnicas {S}uperiores de {I}ngenier\'{\i}a {I}ndustrial)",
    year = "2006"
    url = "http://www.aneca.es/media/150232/libroblanco_industrialessup_def.zip"
}

@electronic{libroblanco_inf,
    author = {ANECA},
    title = {Libro {B}lanco. {T}tulo de {G}rado en {I}ngenier\'{\i}a {I}nformtica},
    year = {2004}
    url={http://www.aneca.es/media/150388/libroblanco_jun05_informatica.pdf}
}

@inproceedings{amicarelli_etal_spheric10_3d_trunc_error,
    author = {Amicarelli, A. and Leboeuf, F. and Fang, L. and Caro, J. and Marongiu, J. C. and Leduc, J.},
    booktitle = {5th {ERCOFTAC SPHERIC} workshop on {SPH} applications},
    citeulike-article-id = {7475291},
    keywords = {error, sph, truncation},
    location = {Manchester, UK},
    pages = {178--185},
    posted-at = {2010-07-14 08:41:04},
    priority = {2},
    title = {{SPH} truncation error in {3D} simulations},
    year = {2010}
}

@article{Antoci+etal:2007,
    abstract = {A Lagrangian model for the numerical simulation of fluid-structure interaction problems is proposed in the present paper. In the method both fluid and solid phases are described by smoothing particle hydrodynamics: fluid dynamics is studied in the inviscid approximation, while solid dynamics is simulated through an incremental hypoelastic relation. The interface condition between fluid and solid is enforced by a suitable term, obtained by an approximate SPH evaluation of a surface integral of fluid pressure. The method is validated by comparing numerical results with laboratory experiments where an elastic plate is deformed under the effect of a rapidly varying fluid flow.},
    author = {Antoci, Carla and Gallati, Mario and Sibilla, Stefano},
    booktitle = {Fourth MIT Conference on Computational Fluid and Solid Mechanics},
    citeulike-article-id = {1967907},
    citeulike-linkout-0 = {http://dx.doi.org/10.1016/j.compstruc.2007.01.002},
    citeulike-linkout-1 = {http://linkinghub.elsevier.com/retrieve/pii/S0045794907000132},
    citeulike-linkout-2 = {http://www.sciencedirect.com/science/article/B6V28-4N2DRF8-1/2/123a2703b39c0eb0a14283d1a636ee6e},
    doi = {10.1016/j.compstruc.2007.01.002},
    journal = {Computers \& Structures},
    keywords = {elasticity, fluid-structure-interaction, sph},
    month = {},
    number = {11-14},
    pages = {879--890},
    posted-at = {2007-11-23 18:31:20},
    priority = {2},
    title = {Numerical simulation of fluid-structure interaction by {SPH}},
    url = {http://dx.doi.org/10.1016/j.compstruc.2007.01.002},
    volume = {85},
    year = {2007}
}

@ARTICLE{Ata2005,
   AUTHOR="",
   TITLE="",
   JOURNAL="",
   VOLUME=,
   NUMBER="",
   PAGES="",
   YEAR=,
   NOTE="{ }"
}

@ARTICLE{attaway1994,
   AUTHOR="Attaway, S.W. and Heinstein, M.W. and Swegle, J.W.",
   TITLE="Coupling of smooth particle hydrodynamics with the finite element method",
   JOURNAL="Nuclear Engineering and Design",
   VOLUME=150,
   NUMBER="2--3",
   PAGES="199--205",
   YEAR=1994,
   NOTE="{ \\ \em NO HAY.}"
}

@ARTICLE{bagnold1939,
   AUTHOR="Bagnold, R.A.",
   TITLE="Interim report on wave-pressure research",
   JOURNAL="Journ. of ICE",
   VOLUME=12,
   ISSUE=7,
   PAGES="202--226",
   YEAR=1939,
}

@PHDTHESIS{balsara1990,
   AUTHOR="Balsara, D.S.",
   TITLE="Thesis citada por Balsara sobre estabilidad de SPH",
   SCHOOL="University of Illimois",
   YEAR=1990,
   %NOTE="{ \\ \em NO HAY}"
}

@article{balsara1995,
   author    = {D. S. Balsara},
   title     = {Von {N}eumann stability analysis of {S}moothed {P}article
   {H}ydrodynamics - {S}uggestions for optimal algorithms},
   journal   = JCP,
   pages     = {357-372},
   year      = {1995},
   volume    = {121},
   Keywords  = {SPH,theory}
%   NOTE="{ \\ \em 1 COPIA. se trata de analizar los
%    fundamentos matemticos de algunas decisiones algortmicas como el
%    kernel a usar, las partculas necesarias, el paso temporal.... las
%    formulaciones para la ecuacin del momento lineal y de la energa
%    no son las mismas q las habituales de monaghan. creo q tengo q
%    estudiar anlisis de estabilidad de von neumann antes de entender
%    este paper. tambin dudo q nos sirva de mucho. las conclusiones
%    estn condicionadas x el integrador temporal y aqu se usa uno q
%    precisa de dos evaluaciones de los vectores
%    fuerza x cada paso de tiempo}"
}



@article{basa+etal:2008,
    abstract = {Numerous methods are available for the modelling of viscous stress terms in smoothed particle hydrodynamics (SPH). In this work, the existing methods are investigated systematically and evaluated for a range of Reynolds numbers using Poiseuille channel and lid-driven cavity test cases. The best results are obtained using two methods based on combinations of finite difference and SPH approximations, due to Morris et al. and Cleary. Gradients of high-valued functions are shown to be inaccurately estimated with standard SPH. A method that reduces the value of functions (in particular, pressure) before calculating the gradients reduces this inaccuracy and is shown to improve performance. A mode of instability in Poiseuille channel flows, also reported in other works, is examined and a qualitative explanation is proposed. The choice of boundary implementation is shown to have a significant effect on transient velocity profiles in start-up of the flow. The use of at least linear extrapolation for
in-wall velocities is shown to be preferable to mirroring of velocities. Consistency corrections to the kernel are also found to result in significant accuracy and stability improvements with most methods, though not in all cases. Copyright {\copyright} 2008 John Wiley \& Sons, Ltd.},
    address = {Department of Mechanical and Biomedical Engineering, National University of Ireland, Galway, Ireland},
    author = {Basa, Mihai   and Quinlan, Nathan  J.  and Lastiwka, Martin  },
    citeulike-article-id = {4000274},
    doi = {http://dx.doi.org/10.1002/fld.1927},
    journal = {International Journal for Numerical Methods in Fluids},
    keywords = {accuracy, fluid, lid-driven-cavity, meshfree, sph, viscous},
    year = {2009},
    number = {10},
    pages = {1127-1148},
    posted-at = {2009-02-03 09:53:29},
    priority = {2},
    title = {Robustness and accuracy of {SPH} formulations for viscous flow},
    volume = {60},
%   url = {http://dx.doi.org/10.1002/fld.1927},
}


@BOOK{batchelor1967,
    AUTHOR = {Batchelor, George Keith},
    EDITOR = {},
    TITLE = {Introduction to Fluid Dynamics},
    PUBLISHER = {Cambridge University Press, New York},
    YEAR = {1967},
    VOLUME = {},
    SERIES = {},
    ADDRESS = {},
    EDITION = {},
    MONTH = {}}


@ARTICLE{batra2004,
    AUTHOR="Batra, R.C. and  Zhang, G.M. ",
    TITLE="Analysis of Adiabatic Shear Bands in Elasto-Thermo-Viscoplastic by Modified Smoothed-Particle Hydrodynamics (MSPH) Method",
    JOURNAL=JCP,
    VOLUME={201},
    PAGES="172-190",
    YEAR={2004},
}

@ARTICLE{batra2007,
    AUTHOR="Batra, R.C. and Zhang, G.M.",
    TITLE="Search Algorithm, and Simulation of Elastodynamic Crack Propagation by Modified Smoothed Particle Hydrodynamics (MSPH) Method",
    JOURNAL="Computational Mechanics, Available online",
    VOLUME=,
    PAGES=,
    YEAR={2007},
}

@book{beck_fowler_2000,
    author = {Beck, K. and Fowler, M.},
    citeulike-article-id = {6609244},
    editor = {Addison-Wesley},
    keywords = {equipo},
    posted-at = {2010-01-31 20:08:41},
    priority = {2},
    title = {Planning Extreme Programming},
    year = {2000}
}

@ARTICLE{belytschko1995,
   AUTHOR="Belytschko, T. and Krongauz, Y. and Organ, D. and Fleming, M. and Organ, D. and
   Liu, W.K.",
   TITLE="Smoothing and accelerated computations in the Element Free Galerkin Method",
   JOURNAL="",
   VOLUME=,
   PAGES="",
   YEAR=1995,
%   NOTE="{ \\ \em 1 COPIA. tiene que estar en ELEC pero no lo encuentro.}"
}

@ARTICLE{belytschko1996,
   AUTHOR="Belytschko, T. and Krongauz, Y. and Organ, D. and Fleming, M. and Krysl, P.",
   TITLE="Meshless methods: An overview and recent developments",
   JOURNAL="Computer Methods in Applied Mechanics and Engineerings",
   VOLUME=139,
   PAGES="3--47",
   YEAR=1996,
%   NOTE="{ \\ \em ELEC. Completeness means that the approximation or its derivatives
%meets certain reproducing conditions. completeness for Galerkin method is similar to consistency
%for finite element method. \\
%Study of convergence is 3 points: consistency (usually for FD), reproducing conditions and polynomial
%completeness or completeness (Hughes, 1987). LOS TRES ARTICULOS DE BELYTSCHKO SON MUY IMPORTANTE COMO
%PASO HACIA UN ANALYSIS MAS MATEMTICO DE LOS METODOS DE PARTICULAS}"
}

@ARTICLE{belytschko1998,
   AUTHOR="Belytschko,T. and Krongauz, Y. and Dolbow, J. and Gerlach, C.",
   TITLE="On the completeness of meshfree particle methods",
   JOURNAL=IJNME,
   VOLUME=43,
   NUMBER=5,
   PAGES="785--819",
   MONTH="Nov.",
   YEAR=1998,
%   NOTE="{ \\ \em ELEC}"
}

@ARTICLE{belytschko2000,
   AUTHOR="Belytschko, T. and Guo, Y. and Liu, W.K. and Xiao, S.H.",
   TITLE="A unified stability analysis of meshless particle methods",
   JOURNAL=IJNME,
   VOLUME=48,
   PAGES="1359--1400",
   YEAR=2000,
%   NOTE="{ \\ \em ELEC}"
}

@ARTICLE{belytschko2002,
   AUTHOR="Belytschko,T. and Xiao, S.",
   TITLE="Stability analysis of particle method with corrected derivatives",
   JOURNAL="Computer and Mathematics with applications",
   VOLUME=43,
   PAGES="329--350",
   YEAR=2002,
%   NOTE="{ \\ \em ELEC}"
}

@ARTICLE{benmoussa2000,
    AUTHOR="Ben Moussa B and Vila, J.P.",
    TITLE="Convergence of SPH method for scalar nonlinear conservation laws",
    JOURNAL="SIAM Journal on Numerical Analysis",
    VOLUME={37 (3)},
    PAGES={863-887},
    YEAR={2000}
}

@ARTICLE{benz1988,
   AUTHOR="Benz,W.",
   TITLE="Applications of Smoothed Particle Hydrodynamics (SPH) to
    Astrophysical Problems",
   JOURNAL="Computer Physics Communications",
   VOLUME=48,
   PAGES="97--105",
   YEAR=1988,
%   NOTE="{ \\ \em NO HAY. A MENUDO CITADO EN LOS ART DE MONAGHAN}"
}

@ARTICLE{benz1989a,
   AUTHOR="Benz, W.",
   TITLE="Smooth Particle Hydrodynamics: A Review",
   JOURNAL="Harvard-Smithsonian Center for Astrophysics",
   VOLUME="Preprint No. 2884",
   YEAR=1989,
   NOTE="{ \\ \em 1 COPIA en un encuadernado en
carpeta MONAGHAN}"
}

@ARTICLE{benz1989b,
   AUTHOR="Benz, W. and Hills, J.G. and Thielemann, F.K.",
   TITLE="Three dimensional hydrodynamical simulations of stellar collisions. II White dwarves",
   JOURNAL="The Astrophysical Journal",
   VOLUME=342,
   MONTH="July",
   PAGES="986--998",
   YEAR=1989,
   NOTE="{ \\ \em 1 COPIA}"
}

@ARTICLE{benz1990,
   AUTHOR="Benz, W.",
   TITLE="Smooth Particle Hydrodynamics: A Review",
   JOURNAL="The Numerical Modeling of Nonlinear Stellar Pulsations",
   PAGES="269--288",
   YEAR=1990,
   NOTE="{ \\ \em 1 COPIA}"
}


@ARTICLE{benz1995,
   AUTHOR="Benz, W. and Asphaug, E.",
   TITLE="Simulations of brittle solids using smooth particle hydrodynamics",
   JOURNAL="Computer Physics Communications",
   VOLUME=87,
   NUMBER="1--2",
   PAGES="253--265",
   MONTH="May",
   YEAR=1995,
   NOTE="{ \\ \em 1 COPIA. sobre fractura en solidos.
utliza un tree modif para la busqueda de vecinos. es interesante.
tengo q comentar c juan miguel las ecs d ns en soli2 para entender est paper}"
}

@techreport{berg_dnv_1987,
    author={A. Berg},
    year={1987},
    title={Scaling laws and statistical distributions of impact pressures in liquid sloshing},
    institution={Det Norske Veritas (DNV)},
    number={no. 87-2008}
}

@ARTICLE{souto2006,
    AUTHOR="Souto-Iglesias, A. and Delorme, L. and P\'{e}rez Rojas, L. and Abril, S.",
    TITLE="Liquid moment amplitude assesment in sloshing type problems with {SPH}",
    JOURNAL=OE,
    VOLUME=33,
    PAGES="11-12",
    YEAR=2006
}

@article{Bierbrauer_etal_noslip_cmame2009,
title = "A consistent reflected image particle approach to the treatment of boundary conditions in smoothed particle hydrodynamics",
journal = "Computer Methods in Applied Mechanics and Engineering",
volume = "198",
number = "41-44",
pages = "3400 - 3410",
year = "2009",
note = "",
issn = "0045-7825",
doi = "DOI: 10.1016/j.cma.2009.06.014",
url = "http://www.sciencedirect.com/science/article/B6V29-4WN2XPR-4/2/5d58483b66bffeec7d2c4a4d8eaad63d",
author = "F. Bierbrauer and P.C. Bollada and T.N. Phillips",
keywords = "Smoothed particle hydrodynamics",
keywords = "Boundary conditions",
keywords = "Image particle",
keywords = "Newtonian fluid",
keywords = "Poiseuille flow",
keywords = "Couette flow"
}


@ARTICLE{bonet1999,
   AUTHOR="Bonet, J. and Lok, T.S.L.",
   TITLE="Variational and momentum preservation aspects of Smoothed Particle Hydrodynamics formulations",
   JOURNAL="Comput. Methods Appl. Mech. Eng.",
   VOLUME=180,
   PAGES="97--115",
   YEAR=1999,
   NOTE="{ \\ \em ELEC. + 1 COPIA.
   IGUAL Q LOS ART DE BELYTSCHKO, LOS ART DE BONET TRATAN DE REPRODUCING CONDITIONS,
   MAS PARA EL GRADIENTE DEL KERNEL. HAY QUE CUIDAR LOS}"
}

@ARTICLE{bonet2000,
   AUTHOR="Bonet, J. and Kulasegaram, S.",
   TITLE="Correction and stabilization of smooth particle hydrodynamics methods with
    applications in metal forming simulations",
   JOURNAL=IJNME,
   VOLUME=47,
   NUMBER=6,
   PAGES="1189--1214",
   MONTH="Feb.",
   YEAR=2000,
}

@ARTICLE{bonet2001,
   AUTHOR="Bonet, J. and Kulasegaram, S.",
   TITLE="Remarks on tension instability of Eulerian and Lagrangian corrected smooth particle hydrpdynamics (CSPH) methods",
   JOURNAL=IJNME,
   VOLUME=52,
   PAGES="1203--2120",
   YEAR=2001,
}

@ARTICLE{bonet2004,
   AUTHOR="Bonet, J. and Kulasegaram, S. and Rodriguez-Paz, M.X. and Profit, M.",
   TITLE="Variational formulation for the Smoothed Particle Hydrodynamics (SPH)
   simulation of fluid and solid problems",
   JOURNAL="Comput. Methods Appl. Mech. Eng.",
   VOLUME=193,
   PAGES="1245--1256",
   YEAR=2004,
}

@ARTICLE{bonet2005,
   AUTHOR="Bonet, J. and Rodriguez-Paz, M.X.",
   TITLE="Hamiltonian formulation of the variable-h SPH equations",
   JOURNAL=JCP,
   VOLUME=209,
   PAGES="541--558",
   YEAR=2005,
}

@inproceedings{botia_etal_spheric10,
    author = {Botia-Vera, E. and Souto-Iglesias, A. and Bulian, G. and {Lobovsk\'{y}}, L.},
    booktitle = {5th ERCOFTAC SPHERIC workshop on SPH applications},
    citeulike-article-id = {7107105},
    keywords = {colagrossi\_delorme\_etal\_spheric08},
    location = {Manchester, UK},
    posted-at = {2010-04-30 13:48:23},
    priority = {2},
    title = {Three {SPH} {N}ovel {B}enchmark {T}est {C}ases for free surface flows},
    year = {2010}
}

@ARTICLE{Brookshaw1985,
   AUTHOR="Brookshaw, L.",
   TITLE="A method of calculating radiative heat diffusion in particle
    simulations",
   JOURNAL="Proc. Astron. Soc. Aust.",
   VOLUME=6,
   NUMBER=2,
   PAGES="207--210",
   YEAR=1985,
%   NOTE="{ \\ \em 1 COPIA}"
}

@PHDTHESIS{brookshaw1986,
   AUTHOR="Brookshaw, L.",
   TITLE="Smooth particle hydrodynamics in cylindrical coordinates",
   SCHOOL="Monash University",
   YEAR=1986,
   NOTE="{ \\ \em NO HAY}"
}

@ARTICLE{Brookshaw2001,
   AUTHOR="Brookshaw, L.",
   TITLE="A method of calculating radiative heat diffusion in particle
    simulations",
   JOURNAL="??",
   VOLUME=,
   PAGES="",
   YEAR=2001,
%   NOTE="{ \\ \em ELEC}"
}

@INPROCEEDINGS{brown,
   AUTHOR="Brown, D.L.",
   TITLE="Accuracy of projection method for the incompressible Navier-Stokes equations",
   BOOKTIILE="Workshop on Numerical Simulation of Incompressible Flow",
   YEAR=2001,
   NOTE="{ \\ \em ELEC}"
}

@article{bulian_francescutto_2009,
title = {Experimental results and numerical simulations on strongly nonlinear rolling of multihulls in moderate beam seas},
journal = {Proceedings of the Institution of Mechanical Engineers - Part M - Journal of Engineering for the Maritime Environment},
author = {Bulian, G. and Francescutto, A.},
volume = {223},
number = { 3-4},
year = {2009},
pages = {189-210},
doi = {10.1243/14750902JEME126},
}

@article{bulian_etal_jhr09,
    abstract = {The roll motion response of a single degree of freedom (SDOF) structural system to which a rigid rectangular partially filled liquid tank has been attached is considered. The SDOF structural system with the empty tank is first described with a mathematical model and this model is validated by performing decay experiments as well as experiments in which periodic excitations are applied to the system. The responses are accurately predicted by the model. The accuracy of these predictions allows us to study both experimentally and numerically, with weakly compressible SPH, the performance of the partially filled tank as a tuned liquid damper (TLD). The sloshing flows inside the tank comprise the onset of breaking waves which make the TLDs devices extremely difficult to model, especially for the potential flow multimodal approaches commonly used to simulate these sorts of coupled systems. In order to characterise the wave breaking effects on the response curves, tests have been performed with
liquids of different viscosity, the increasing viscosity preventing the onset of breaking waves. The capabilities of SPH to treat this coupling problem are assessed and the results show that SPH is able to capture a substantial part of the physics involved in the addressed phenomena but further work remains still to be done relating to a more accurate treatment of the laminar viscosity and turbulence effects.},
    author = {Bulian, G. and Souto-Iglesias, A. and Delorme, L. and Botia-Vera, E.},
    citeulike-article-id = {4388052},
    issn = {0022-1686},
    journal = {Journal of Hydraulic Research},
    keywords = {damper, liquid, sph, tld, tuned, viscosity},
    number = {Extra Issue},
    pages = {28--39},
    posted-at = {2009-04-23 17:50:55},
    priority = {2},
    title = {{SPH} simulation of a Tuned Liquid Damper with angular motion},
    volume = {48},
    year = {2010}
    doi = {10.3826/jhr.2010.0014},
}

@article{bulian2005,
language = {English},
copyright = {Compilation and indexing terms, Copyright 2007 Elsevier Inc. All rights reserved},
title = {Nonlinear parametric rolling in regular waves - A general procedure for the analytical approximation of the GZ curve and its use in time domain simulations},
journal = {Ocean Engineering},
author = {Bulian, Gabriele},
volume = { 32},
number = { 3-4},
year = {2005},
pages = {309 - 330},
issn = {0029-8018},
abstract = {A general procedure for the analytical approximation of the restoring arm in regular longitudinal waves is presented. The aim of the approximation is to obtain an analytical and accurate means for substituting the look-up table method in time domain simulations of realistic nonlinear parametric roll. The model is based on a 1.5-DOF system: the roll motion is modelled dynamically using a single degree of freedom, whereas the additional half DOF indicates that the coupling with heave and pitch is taken into account by means of hydrostatic calculations without considering dynamic effects. An analysis of the accuracy of the analytical approach is carried out taking into consideration different aspects of the problem (time histories, domains of attraction, chaotic behaviour, etc.). All the simulations are performed using data obtained from a real ship hull of a RoRo-Pax. &copy; 2004 Elsevier Ltd. All rights reserved.},
key = {Water waves},
keywords = {Hydrostatic pressure;Parameter estimation;Degrees of freedom (mechanics);Chaos theory;Approximation theory;Mathematical models;Computer simulation;},
}


@TECHREPORT{campbell1989,
   AUTHOR="Campbell, P.M.",
   TITLE="Some new algorithms for boundary value problems in smooth particle hydrodynamics",
   INSTITUTION="?",
   VOLUME="AD-A211728 MRC/ABQ-R-1100, DNA-TR-88-286",
   MONTH="June",
   YEAR=1989,
   NOTE="{ \\ \em 2 COPIAS. It is very interesting because
all the mathematical deductions are detailed and you can follow
them. It provides a way to overcome the lack of resolution close to the boundaries}"
}

@INPROCEEDINGS{campbell2002,
   AUTHOR="Campbell, J.C. and Vignjevic, R. and De Vuyst, T.",
   TITLE="Non-colocated SPH",
   BOOKTITLE="Fifth World Congress on Computational Mechanics",
   YEAR=2002,
   NOTE="{ \\ \em ELEC}"
}

@ARTICLE{capuzzo1999,
    AUTHOR="Capuzzo-Dolcetta, R. and Di Lisio, R.",
    TITLE="A criterion for the choice of the interpolation kernel in smoothed particle hydrodynamics",
    JOURNAL="?",
    VOLUME={},
    PAGES={},
    YEAR={1999}
}

@ARTICLE{caramana1998,
    AUTHOR="Caraman, E.J. and Shashkov, M.J. and Whalen, P.P.",
    TITLE="Formulations of artificial viscosity for multi-dimensional shock wave computations",
    JOURNAL=JCP,
    VOLUME={144},
    PAGES={70--97},
    YEAR={1998}
}

@ARTICLE{celebi2002,
   AUTHOR="Celebi, M.S. and Akyildiz, H.",
   TITLE="Nonlinear modeling of liquid sloshing in a moving rectangular tank",
   JOURNAL="Ocean Engineering",
   VOLUME=29,
   NUMBER=12,
   PAGES="1527--1553",
   YEAR=2002,
   NOTE="{ \\ \em 1 COPIA + ELEC}"
}

@ARTICLE{chakrabarti1993,
    AUTHOR="Chakrabarti, S.K. and Molteni, D.",
    TITLE="Smoothed Particles Hydrodynamics confronts theory - Formation of standing shocks in accretion disks and wind around black-holes",
    JOURNAL="Astrophysical Journal",
    VOLUME={417 (2)},
    PAGES={671-676},
    YEAR={1993}
}


@article{CHANIOTIS+POULIKAKOS:2002,
    author = {Chaniotis, A. K.  and Poulikakos, D.  and Koumoutsakos, P. },
    citeulike-article-id = {1951130},
    journal = {J. Comp. Phys.},
    keywords = {SPH, viscous},
    pages = {67--90},
    priority = {2},
    title = {Remeshed {S}moothed {P}article {H}ydrodynamics for the {S}imulation of {V}iscous and {H}eat {C}onducting {F}lows},
    volume = {182},
    year = {2002}
%   NOTE="{ \\ \em ELEC}"
}
%

@ARTICLE{chaniotis2003,
   AUTHOR="Chaniotis, A.K. and Frouzakis, C.E. and Lee, J.C. and Tomboulides,
    A.G. and Poulikakos, D. and Boulouchos, K.",
   TITLE="Remeshed smoothed particle hydrodynamics for the simulation of
    laminar chemically eractive flows",
   JOURNAL=JCP,
   VOLUME=191,
   PAGES="1--17",
   YEAR=2003,
   NOTE="{ \\ \em 2 COPIAS + ELEC}"
}

@ARTICLE{chaniotis2004,
   AUTHOR="Chaniotis, A.K. and Poulikakos, D. ",
   TITLE="High order interpolation and differentiation using B-splines",
   JOURNAL=JCP,
   VOLUME=197,
   PAGES="253--274",
   YEAR=2004,
   NOTE="{ \\ \em ELEC}"
}

@ARTICLE{chen1999,
   AUTHOR="Chen, J.K. and Beraun, J.E. and Carney, T.C.",
   TITLE="A corrective smoothed particle method for boundary value problems in heat conduction",
   JOURNAL=IJNME,
   VOLUME=46,
   PAGES="231--252",
   YEAR=1999,
   NOTE="{ \\ \em ELEC}"
}

@ARTICLE{chen2000,
   AUTHOR="Chen, J.K. and Beraun, J.E. ",
   TITLE="A generalized smoothed particle hydrodynamics method for nonlinear dynamics problems",
   JOURNAL=IJNME,
   VOLUME=190,
   PAGES="225--239",
   YEAR=2000
}

@article{Cheng_arai_2003,
author="Cheng,Liang-Yee and Arai,Makoto",
title="2003S-G3-1 A Technique for Stable Numerical Assessment of Hydrodynamic Impact Pressure due to Sloshing in Chamfered Tanks",
journal="Conference proceedings the Society of Naval Architects of Japan",
ISSN="",
publisher="The Japan Society of Naval Architects and Ocean Engineers",
year="20030500",
volume="",
number="1",
pages="105-106",
URL="http://ci.nii.ac.jp/naid/110007184330/en/",
DOI="",
}

@inproceedings{CHENG_ETAL_MARINE09,
    abstract = {The pressure field during wave impact events is difficult to characterise from a deterministic point of view. Attempts to have such a description relying on the analysis of the first impact events together with uncertainty assessment have been performed and are documented in this paper. In order to investigate the nature of the impulsive pressure computations, results obtained with state of the art SOLA-SURF finite difference and SPH codes have been compared with experiments for a rectangular tank, longitudinal section of an LNG tanker, subjected to pitch motions. Results have revealed the great complexity of the phenomena and the strengths and weaknesses of the numerical approaches.},
    author = {Cheng, L. Y.  and Souto-Iglesias, A.  and Simos, A.  and Cercos, J. L.  and Tsukamoto, M. M.  and Endo, C. Y.  and Marin, M. A.  and Botia, E. },
    booktitle = {III International Conference on Computational Methods in Marine Engineering},
    citeulike-article-id = {4281634},
    keywords = {impact, pressure, sloshing, sola, sph, surf},
    location = {Trondheim, Norway},
    month = {June},
    organization = {CIMNE},
    posted-at = {2009-04-07 10:13:20},
    priority = {0},
    title = {Hydrodynamic Impact Pressure Computations and Experiments in an {LNG} Tank Section},
    year = {2009}
}
@Comment{ISBN:9788496736665}

@ARTICLE{cleary1999,
   AUTHOR="Cleary, P. and Monaghan, J.J.",
   TITLE="Conduction modelling using smoothed particle hydrodynamics",
   JOURNAL=JCP,
   VOLUME=148,
   PAGES="227--264",
   YEAR=1999,
%   NOTE="{ \\ \em ELEC. Trata de conduccin de calor en slidos. NL usa este
%paper para hacerlo con fluidos}"
}



@ARTICLE{cleary,
   AUTHOR="Cleary, P.",
   TITLE="Modelling the high rpessure die casting process using SPH",
   JOURNAL=,
   VOLUME=,
   PAGES="",
   YEAR=,
   NOTE="{ \\ \em ELEC. A leer}"
}

@article{Cleary:98,
language = {English},
copyright = {Compilation and indexing terms, Copyright 2007 Elsevier Inc. All rights reserved},
title = {Modelling confined multi-material heat and mass flows using {SPH}},
journal = {Applied Mathematical Modelling},
author = {Cleary, Paul W.},
volume = { 22},
number = { 12},
year = {1998},
pages = {981 - 993},
issn = {0307-904X},
abstract = {Many applications in mineral and metal processing involve complex flows of multiple liquids and gases coupled with heat transfer. The motion of the surfaces of the liquids can involve sloshing, splashing and fragmentation. Substantially differing material properties are common. The flows are frequently complicated by other physical effects. Smoothed particle hydrodynamics (SPH) is a computational modelling technique that is ideally suited to such difficult flows. The Lagrangian framework means that momentum dominated flows and flows with complicated material interface behaviours are handled easily and naturally. To be able to model complex multi-physics flows, many aspects of SPH need to be explored. In this paper we describe developments that allow conductive and convective heat transfer to be modelled accurately for a sequence of idealized test problems.},
key = {Confined flow},
keywords = {Mass transfer;Hydrodynamics;Natural convection;Mathematical models;Lagrange multipliers;Interfaces (materials);Computational methods;},
%%bib colagrossi%% @article{cleary1998b,
}


@TECHREPORT{cleary1998,
   AUTHOR="Cleary, P.",
   TITLE="A boundary force based on the gradient of the kernel",
   INSTITUTION="CMIS",
   MONTH="April",
   YEAR=1998,
   NOTE="{ \\ \em 1 COPIA + ENCUADERNADO E2.
   CLEARY MUCHAS PRUEBAS SOBRE LA FUERZA DE FRONTERA. HAY ALGUNOS MUY INTERESANTES}"
}


@TECHREPORT{cleary1997a,
   AUTHOR="Cleary, P.",
   TITLE="Boundary force and damping : Modes of fluid oscillation and their dependence on properties of the boundary force",
   INSTITUTION="CMIS",
   MONTH="July",
   YEAR=1997,
   NOTE="{ \\ \em 1 COPIA + ENCUADERNADO E2. aqu viene la calibracin de la fuerza de frontera. hace algunas pruebas muy interesantes.}"
}

@TECHREPORT{cleary1997b,
   AUTHOR="Cleary, P.",
   TITLE="Improved boundary modelling for ideal gases using explicit static boundary pressure, fluid behaviour
   for different equations of state and instabilities",
   INSTITUTION="CMIS. Monash University",
   MONTH="June",
   YEAR=1997,
   NOTE="{ \\ \em 1 COPIA. Todo est en ttulo. ESTA ALGO DE ESTABILIZACION, DE LA DENSIDAD INICIAL A DAR A LAS PARTICULAS.
   SIEMPRE LO DE CLEARY CON MUCHAS PRUBEAS SENCILLAS. BIEN HECHO. IGUAL ME LO LLEVO A VTECH.}"
}

@TECHREPORT{cleary1996,
  AUTHOR="Cleary, P.",
  TITLE="New implementation of viscosity. {T}ests with {C}ouette flows",
  INSTITUTION="CSIRO Division of Mathematics and Statistics",
  MONTH="May",
  YEAR=1996,
}

@inproceedings{cleary_monaghan_93,
    address = {Canberra},
    author = {Cleary, P. W.  and Monaghan, J. J. },
    booktitle = {Proc. 6th International Computational Techniques and Applications Conference},
    citeulike-article-id = {2718954},
    pages = {157--165},
    posted-at = {2008-04-25 17:28:35},
    priority = {2},
    title = {Boundary interactions and transition to turbulence for standard {CFD} problems using {SPH}},
    year = {1993}
}
%

@inproceedings{Colagrossi_etal_spheric10_free_surface_viscosity,
    author = {Colagrossi, A. and Antuono, M. and Souto-Iglesias, A. and Le Touz\'{e}, D. and Izaguirre-Alza, P.},
    booktitle = {5th ERCOFTAC SPHERIC workshop on SPH applications},
    location = {Manchester, UK},
    title = {Theoretical analysis of {SPH} in simulating free-surface viscous flows},
    year = {2010}
}

@article{colagrossi_etal_pre2010,
    author = {Colagrossi, A. and Antuono, M. and Souto-Iglesias, A. and Le Touz\'{e}, D.},
    citeulike-article-id = {7053521},
    journal = {Physical Review E (submitted for publication)},
    keywords = {singularity, sph, viscosity},
    posted-at = {2010-04-21 20:20:15},
    priority = {2},
    title = {Theoretical analysis of different viscous {SPH} formulations in simulating free-surface viscous flows}
}


@article{Colagrossi2009,
author = {Andrea Colagrossi and Matteo Antuono and David Le Touz\'{e}},
collaboration = {},
title = {Theoretical considerations on the free-surface role in the {S}moothed-particle-hydrodynamics model},
publisher = {APS},
year = {2009},
journal = {Physical Review E (Statistical, Nonlinear, and Soft Matter Physics)},
volume = {79},
number = {5},
eid = {056701},
numpages = {13},
pages = {056701},
keywords = {boundary-value problems; compressible flow; computational fluid dynamics},
doi = {10.1103/PhysRevE.79.056701}
}
%url = {http://link.aps.org/abstract/PRE/v79/e056701},



@inproceedings{colagrossi_delorme_etal_spheric08,
    author={A. Colagrossi and L. Delorme and G. Colicchio and A. Souto-Iglesias and J. L. Cerc\'os-Pita},
    year={2008},
    month={June, 4-6},
    title={Reynolds number and Shallow Depth Sloshing},
    booktitle={$3^{rd}$ ERCOFTAC SPHERIC workshop on SPH applications},
    location={Lausanne, Switzerland.},
    pages={221-228}
}
}


@PHDTHESIS{colagrossi2005,
    AUTHOR="Colagrossi, A.",
    TITLE="A meshless lagrangian method for free-surface and interface flows with fragmentation",
    SCHOOL="Universit\`a di Roma La Sapienza",
    YEAR=2005,
   NOTE="{ \\ \em ELEC. THESIS DE COLAGROSSI. MUY BIEN HECHA}"
}

%

@ARTICLE{colagrossi2003,
   AUTHOR="Colagrossi, A. and Landrini, M.",
   TITLE="Numerical Simulation of Interfacial Flows by Smoothed Particle Hydrodynamics",
   JOURNAL=JCP,
   VOLUME=191,
   PAGES="448--475",
   YEAR=2003,
%   NOTE="{ \\ \em ELEC + 2 COPIAS. VIENE DENTRO : INTEGRATION OF THE ENERGY EQUATION, AND OTHER INTERESTING POINTS. CITAR A COLAGROSSI POR LO DE GHOST PART}"
}


@ARTICLE{Coppola,
    author = {Coppola-Owen, H. and Codina, R.},
    title = {Improving Eulerian two-phase flow finite element approximation with discontinuous gradient pressure shape functions},
    journal = {International Journal for Numerical Methods in Fluids},
    volume = "49",
    pages = "1287-1304",
    year = {2005}
}


Int. J. Numer. Meth. Fluids 2005; 49:1287?1304





@ARTICLE{couchman1995,
   AUTHOR="Couchman, H.M.P. and Thomas, Pearce",
   TITLE="Hydra: An adaptative-mesh implementation of $P^3M-SPH$",
   JOURNAL="",
   YEAR=1995,
   NOTE="{ \\ \em 1
COPIA. Describe diferentes esquemas de
avance temporal: RK, Pred-Corr, Leap-Frog. HAY QUE ETUDIARLO BIEN}"
}

@ARTICLE{crespo2007,
    AUTHOR="Crespo, A.J.C. and Gmez-Gesteira, M. and  Dalrymple, R.A.",
    TITLE="3D SPH Simulation of large waves mitigation with a dike",
    JOURNAL="Journal of Hydraulic  Research",
    VOLUME={},
    PAGES="",
    YEAR={2007},
}

@ARTICLE{cueto2002,
   AUTHOR="Cueto-Felgueroso, L. and Mosqueira, G. and Colominas, I. and Navarrina, F. and Casteleiro, M.",
   TITLE="Anlisis de formulaciones numricas SPH para la resolucin de problemas de flujo con superficie libre",
   JOURNAL="Mtodos Numricos en Ingeniera",
   PAGES="",
   YEAR=2002,
   NOTE="{}"
}

@ARTICLE{cueto2004a,
   AUTHOR="Cueto-Felgueroso, L. and Colominas, I. and Mosqueira, G. and Navarrina, F. and Casteleiro, M.",
   TITLE="Mtodos numricos de partculas para la simulacin de problemas en dinmica de fluidos",
   JOURNAL="Mtodos Numricos en Ingeniera",
   PAGES="",
   YEAR=2004,
   NOTE="{ ELEC }"
}

@ARTICLE{cueto2004b,
   AUTHOR="Cueto-Felgueroso, L. and Colominas, I. and Mosqueira, G. and Navarrina, F. and Casteleiro, M.",
   TITLE="On the Galerkin formulation of the smoothed particle hydrodynamics method",
   JOURNAL=IJNME,
   VOLUME={60},
   PAGES="1475--1512",
   YEAR=2004,
   NOTE="{ ELEC }"
}

@TECHREPORT{cummins1997,
   AUTHOR="Cummins, S.J.",
   TITLE="Projection methods and SPH",
   INSTITUTION="Monash University",
   YEAR=1997,
   NOTE="{ \\ \em 1 COPIA. Report de Monash sobre proyeccin...}"
}

@ARTICLE{cummins1999,
   AUTHOR="Cummins, S.J. and Rudman, M.",
   TITLE="An SPH projection method",
   JOURNAL=JCP,
   VOLUME=152,
   NUMBER=2,
   PAGES="584--607",
   MONTH="July",
   YEAR=1999,
}
%   NOTE="{ \\ \em 3 COPIAS + ELEC. En cada paso de
%tiempo resuelve una ecuaci\'on de Poisson en la presi\'on para
%imponer la incompresibilidad. Es un tipo de esquema de
%proyecci\'on que se usa mucho tambi\'en en FEM, y q Leo entiende
%perfectamente. El campo de velocidades debe tener divergencia
%nula, y eso afecta al campo de presiones aunque no recuerdo
%c\'omo. La idea es que se divide la ecuacin del momento en dos
%partes utilizando una velocidad intermedia. La densidad se calcula
%a trav\'es de la
%ecuaci\'on de continuidad.}"

@PHDTHESIS{cummins2000,
   AUTHOR="Cummins, S.J.",
   TITLE="Applications of Projection Techniques for incompressible flows",
   SCHOOL="Monash University",
   YEAR=2000,
   %NOTE="{ \\ \em ELEC. YA LO DE POISSON NO ME INTERESA. ELLA LO HACE TODO SIN SUPERFICIE LIBRE}"
}

@ARTICLE{dalrymple2006,
    AUTHOR="Dalrymple, R.A. and Rogers, B.",
    TITLE="Numerical modeling of water waves with the SPH method",
    JOURNAL="Coastal Engineering",
    VOLUME={53 (2-3)},
    PAGES={141-147},
    YEAR={2006}
}

@INPROCEEDINGS{cuomo2005,
   AUTHOR="Cuomo, G. and Panizzo, A. and Dalrymple, R.A.",
   TITLE="SPH-LES two phases simulation of breaking waves",
   BOOKTITLE="WAVES 2005",
   YEAR=2005,
}

@INPROCEEDINGS{dalrymple2005,
   AUTHOR="Dalrymple, R.A.",
   TITLE="New technology: SPH for coastal processes",
   BOOKTITLE="WAVES 2005",
   YEAR=2005,
}

@article{degroote_etal_cmame_2010,
    author = {Degroote, J. and Souto-Iglesias, A. and Paepegem, W. V. and Annerel, S. and Bruggeman, P. and Vierendeels, J.},
    citeulike-article-id = {6699550},
    journal = {Computer Methods in Applied Mechanics and Engineering},
    keywords = {fsi},
    posted-at = {2010-02-18 19:05:50},
    priority = {2},
    title = {Partitioned simulation of the interaction between an elastic structure and free surface flow},
    year = {(in press)}
}

@inproceedings{DelCanto_etal_jenui09,
    author = {Del Canto, P. and Gallego, I. and L\'{o}pez, J. M. and Mora, J. and Reyes, A. and Rodr\'{\i}guez, E. and Sanjeevan, K. and Santamar\'{\i}a, E. and Valero, M.},
    booktitle = {XV Jornadas de Ense\~{n}anza Universitaria de la Inform\'{a}tica(JENUI)},
    citeulike-article-id = {6646401},
    keywords = {equipo},
    location = {Barcelona},
    organization = {Universidad Polit\'{e}cnica de Catalu\~{n}a},
    posted-at = {2010-02-09 15:40:44},
    priority = {2},
    title = {Conflictos en el trabajo en grupo: Dos casos representativos},
    year = {2009}
}

@phdthesis{DELORME_THESIS_2008_SLOSHING_SPH,
    author = {Delorme, L. },
    citeulike-article-id = {4406262},
    keywords = {impact, sloshing, sph},
    posted-at = {2009-04-26 12:38:10},
    priority = {0},
    school = {Technical University of Madrid (UPM)},
    title = {Sloshing Flows. Experimental Investigation and Numerical Simulations with Smoothed Particle Hydrodynamics},
    year = {2009}
}

@article{delorme_colagrossi_etal09,
    abstract = {In this article, impact pressure in the case of shallow water sloshing is investigated experimentally and numerically for forced rolling motion. The maximum values of impact pressures have been found for a frequency lower than the first sloshing frequency. Experimental results are compared with numerical ones obtained using smoothed particle hydrodynamics (SPH). The influence of viscosity and of density re-initialization on the SPH results are discussed. A new method for calculating the pressure on walls with SPH is presented.},
    author = {Delorme, L.  and Colagrossi, A.  and Souto-Iglesias, A.  and Zamora-Rodriguez, R.  and Botia-Vera, E. },
    citeulike-article-id = {3935568},
    doi = {10.1016/j.oceaneng.2008.09.014},
    journal = {Ocean Engineering},
    keywords = {impact, sloshing, waves},
    month = {February},
    number = {2},
    pages = {168--178},
    posted-at = {2009-01-24 13:52:44},
    priority = {2},
    title = {A set of canonical problems in sloshing. {P}art {I}: {P}ressure field in forced roll. {C}omparison between experimental results and {SPH}},
    volume = {36},
    year = {2009}
%   url = {http://dx.doi.org/10.1016/j.oceaneng.2008.09.014},
%   issn = {00298018},
}


@inproceedings{Delorme_MARINE07_revised_aftchou,
    author = {Delorme, L.  and Roca-Fern\'{a}ndez-Vizarra, P.  and Souto-Iglesias, A.  and Gonz\'{a}lez-Guti\'{e}rrez, L. },
    booktitle = {2nd International Conference on Computational Methods In Marine Engineering - {MARINE} 2007},
    citeulike-article-id = {4754662},
    keywords = {impact, lng, sloshing, sph},
    posted-at = {2009-06-05 18:58:39},
    priority = {0},
    title = {Pressure Fields in {LNG} Tanks during Pitch Motions at Model Scale with {SPH}},
    year = {2007}
}

@article{delorme_celigueta_etal08_ercoftac_bulletin,
    author = {Delorme, L. and Celigueta, M. A. and O\~{n}ate, E. and Iglesias, A. Souto},
    citeulike-article-id = {5880690},
    journal = {ERCOFTAC bulletin},
    keywords = {file-import-09-10-03},
    number = {76},
    posted-at = {2009-10-03 12:18:23},
    priority = {0},
    title = {Pressure measurement in 2D sloshing simulations with {SPH}},
    year = {2008}
}

@INPROCEEDINGS{delorme2007,
   AUTHOR="Delorme, L. and Celigueta,
        M.A. and Oate, E. and Souto-Iglesias, A.",
   TITLE="Pressure
        measurement in 2D sloshing simulations with {SPH}",
   BOOKTITLE="2nd SPHERIC workshop, Madrid, Spain",
   PAGES="55--57",
   YEAR=2007,
}

@INPROCEEDINGS{delorme2006,
   AUTHOR="Delorme, L. and Bulian, G. and Mc Cue, L. and Souto-Iglesias, A.",
   TITLE="Coupling between sloshing and ship roll motion:
Comparison between nonlinear potential theory and SPH",
   BOOKTITLE="26th Symposium on Naval Hydrodynamics, Rome, Italy",
   YEAR=2006,
}

@INPROCEEDINGS{desbrun1996,
   AUTHOR="Desbrun, Mathieu and Gascuel, Marie-Paule",
   TITLE="Smoothed Particles: A new paradigm for animating higly deformable bodies",
   BOOKTITLE="6th Eurographics Workshop on Animation and Simulation",
   YEAR=1996,
   NOTE="{ \\ \em 2 COPIAS. lo tenia victor. no esta citado
por nadie. no se a q revista pertenece. los contenidos estn
orientados a simulaciones grficas de fluidos pastosos. buen rollo
terico. de aqu sac victor su kernel, que no es C1. Como a
menudo pasa, no cuenta nada de BC. hay q revisar su web}"
}

@ARTICLE{dilisio1998,
   AUTHOR="Di Lisio, R. and Grenier, E. and Pulvirenti, M.",
   TITLE="The convergence of the SPH method",
   JOURNAL="Computers and Mathematics with Applications",
   VOLUME=35,
   NUMBER="1--2",
   PAGES="95--102",
   YEAR=1998,
   NOTE="{ \\ \em 1 COPIA}"
}

@ARTICLE{dilts1999,
   AUTHOR="Dilts, G.A.",
   TITLE="Moving-least-squares-particle hydrodynamics - I. Consistency and stability",s
   JOURNAL="International Journal for Numerical Methods in Engineering",
   VOLUME=44,
   NUMBER=8,
   PAGES="1115--1155",
   YEAR=1999,
%   NOTE="{ \\ \em 1 COPIA. ART MUY IMPORTANTE Y DIFICIL. PRESENTA MUY
%   BIEN LO DE MLS Y HAY MUCHAS COSAS INTERESANTES DENTRO. TAMBIEN HAY COMO EVITAR
%   QUE LA MATRIZ PARA LA CONSTRUCCION DEL MLS SE PONGA SINGULAR}"
}

@ARTICLE{dilts2000,
   AUTHOR="Dilts, G.A.",
   TITLE="Moving-least-squares-particle hydrodynamics - II. Conservation and boundaries",
   JOURNAL="International Journal for Numerical Methods in Engineering",
   VOLUME=48,
   PAGES="1503--1524",
   YEAR=2000,
%   NOTE="{ \\ \em ELEC}"
}

@MISC{dou-2005,
  author = {Hua-Shu Dou and Boo Cheong Khoo and Khoon Seng Yeo},
  title = {Flow Transition in Plane {C}ouette Flow},
  url = {http://www.citebase.org/abstract?id=oai:arXiv.org:nlin/0501048},
  year = {2005}
}

@inproceedings{erice_2005,
    author = {Erice, C.},
    booktitle = {ASEPUMA, XIII Jornadas},
    citeulike-article-id = {6609270},
    keywords = {equipo},
    location = {A Coru\~{n}a},
    posted-at = {2010-01-31 20:28:46},
    priority = {2},
    title = {{E}strategias de Aprendizaje en la Asignatura {M}atem\'{a}ticas {I} de la {D}iplomatura de {C}iencias {E}mpresariales},
    year = {2005}
}

@ARTICLE{espanol2003,
   AUTHOR="Espa\~{n}ol, P. and Revenga, M.",
   TITLE="Smoothed {D}issipative {P}article {D}ynamics",
   JOURNAL="Physical Review E",
   VOLUME=67,
   YEAR=2003,
%   NOTE="{ \\ \em 1 COPIA + ELEC. Trata de SPH incluyendo
%consideraciones termodinmica. conservacin de la energa}"
%%% colagrossi @ARTICLE{Espanol,
}

@ARTICLE{faltinsen2003,
   AUTHOR="Faltinsen, O.D. and Rognebakke, O.F. and Timokha, N.",
   TITLE="Resonant three-dimensional nonlinear sloshing in a square-base
    basin",
   JOURNAL="Journal of Fluid Mechanics",
   VOLUME=487,
   PAGES="1--42",
   YEAR=2003,
}


@INPROCEEDINGS{fernandez2004,
    AUTHOR="Fernndez-Mndez, S. and Huerta, A. and Bonet, J.",
    TITLE="Acoplamiento de SPH y elementos finitos",
    BOOKTITLE="Mtodos computacionais em engenharia. Lisboa, Portugal",
    MONTH="May",
    YEAR=2004,
   NOTE="{ \\ \em ELEC}"
}

@article{flebbe_munzel_herold_riffert_ruder,
    author = {Flebbe, O.  and M\"{u}nzel, S.  and Herold, H.  and Riffert, H.  and Ruder, H. },
    citeulike-article-id = {4074628},
    journal = {The Astrophysical Journal},
    keywords = {sph, viscosity},
    month = {August},
    pages = {754--760},
    posted-at = {2009-02-20 13:02:02},
    priority = {2},
    title = {Smoothed particle hydrodynamicsPhysical
viscosity and the simulation of accretion disks},
    volume = {431},
    year = {1994}
%   NOTE="{ \\ \em 1 COPIA. Citado por Watkins. Sobre
%viscosidad SPH Pedido 041102 recibido 191102}"
}

@article{Fortin1994455,
title = "Old and New Results on the Two-Dimensional Poiseuille Flow",
journal = "Journal of Computational Physics",
volume = "115",
number = "2",
pages = "455 - 469",
year = "1994",
note = "",
issn = "0021-9991",
doi = "DOI: 10.1006/jcph.1994.1210",
author = "A. Fortin and M. Jardak and J. J. Gervais and R. Pierre"
%url = "http://www.sciencedirect.com/science/article/B6WHY-45P0TFT-M/2/6b887c6e29a0f61a99958e03573428b3",
}

@ARTICLE{frank2003,
    AUTHOR="Frank, J. and Reich, S.",
    TITLE="Conservation properties of smoothed particle hydrodynamics applied to
    the shallow water equations",
    JOURNAL="BIT",
    NUMBER=43,
    PAGES="40--54",
    YEAR=2003,
   NOTE="{ \\ \em ELEC. Muy matemtico}"
}

@incollection{gardner_91,
    author = {Gardner, H.},
    booktitle = {Changing assessments: Alternative views of aptitude, achievement, and instruction},
    citeulike-article-id = {6609282},
    editor = {Gifford and},
    keywords = {assessment},
    location = {Boston},
    pages = {239--252},
    posted-at = {2010-01-31 20:42:45},
    priority = {2},
    publisher = {Kluwer Publishers},
    title = {Assessment in context: The alternative to
standardized testing},
    year = {1991}
}

@ARTICLE{gingold1977,
   AUTHOR="Gingold, R.A. and Monaghan, J.J.",
   TITLE="Smoothed Particle Hydrodynamics: theory and application to
    non-spherical stars",
   JOURNAL="Mon. Not. Roy. Astron. Soc. (MNRAS)",
   VOLUME=181,
   PAGES="375--389",
   YEAR=1977,
   %NOTE="{ \\ \em 1 COPIA. paper donde se introduce el kernel cbico de Monaghan}"
}

@article{GINGOLD+MONA:1982a,
    author = {Gingold, R. A.  and Monaghan, J. J. },
    citeulike-article-id = {1951198},
    journal = {Journal of Computational Physics},
    keywords = {SPH, theory},
    pages = {429--453},
    posted-at = {2007-11-21 13:15:34},
    priority = {2},
    title = {Kernel estimates as a basis for general particle methods in hydrodynamics},
    volume = {46},
    year = {1982}
}
@ARTICLE{GonzalezBermejo,
 AUTHOR =       {L. M. Gonz{\'a}lez and R. Bermejo},
 TITLE =        {A semi-Langrangian level set method for incompressible {N}avier-{S}tokes equations with free surface},
 JOURNAL =      {Int. J. Numer. Meth. Fluids},
 YEAR =         {2005},
 volume =       {49},
 number =       {},
 pages =        {1111-1146},
 month =        {},
 note =         {},
 abstract =     {},
 keywords =     {},
 source =       {},
}

@inproceedings{gonzalez_cercos_macia_spheric12,
    author = {Gonz\'{a}lez, L. M.  and Cerc\'{o}s, J. L. and F. Maci\`{a}},
    year = {2012},
    month = {May},
    title = {On the boundary condition enforcement in SPH methods.},
    booktitle = {$8^th$ SPHERIC Prato, Italy},
    location = {Prato, Italy}
%   citeulike-article-id = {4395431},
%   keywords = {laplacian, sph, viscosity},
%   posted-at = {2009-04-24 15:12:02},
%   priority = {2},
%   abstract = {Our aim with this paper is to contribute to clarify the role played by the most commonly used WCSPH viscousterms in simulating viscous laminar flows. To achieve that, Takeda \textit{et al.}'s\cite{Takeda:94}, Morris\textit{et al'}s\cite{Morris+etal:1997} and Monaghan-Cleary-Gingold's\cite{Cleary:98,monaghan2005b} viscousterms will be analyzed, discussing their origin, their structure and their conservation properties. Theirperformance will be monitored against canonical flows for which the viscosity related phenomena are wellunderstood, and in which boundary effects have a relatively low relevance. One of the study cases has been aLamb-Oseen vortex evolution for which both an exact solution and a finite-element numerical solution have beenderived. The results of the tests show that the SPH viscosity models could have intrinsic limitations inmodelling the viscosity related effects for these canonical flows. This might imply that the SPH formulationsthat rely on these models could have a
limited range of applicability when viscosity effects in the flow aresubstantial.},
%   booktitle = {$4^th$ ERCOFTAC SPHERIC workshop on SPH applications},
}

@inproceedings{gonzalez_sanchez_macia_soutoiglesias_spheric09,
    author = {Gonz\'{a}lez, L. M.  and S\'{a}nchez, J. M.  and Maci\`{a}, F.  and Souto-Iglesias, A. },
    year = {2009},
    month = {May},
    title = {Analysis of {WCSPH} laminar viscosity models},
    booktitle = {$4^th$ SPHERIC},
    location = {Nantes, France}
%   citeulike-article-id = {4395431},
%   keywords = {laplacian, sph, viscosity},
%   posted-at = {2009-04-24 15:12:02},
%   priority = {2},
%   abstract = {Our aim with this paper is to contribute to clarify the role played by the most commonly used WCSPH viscousterms in simulating viscous laminar flows. To achieve that, Takeda \textit{et al.}'s\cite{Takeda:94}, Morris\textit{et al'}s\cite{Morris+etal:1997} and Monaghan-Cleary-Gingold's\cite{Cleary:98,monaghan2005b} viscousterms will be analyzed, discussing their origin, their structure and their conservation properties. Theirperformance will be monitored against canonical flows for which the viscosity related phenomena are wellunderstood, and in which boundary effects have a relatively low relevance. One of the study cases has been aLamb-Oseen vortex evolution for which both an exact solution and a finite-element numerical solution have beenderived. The results of the tests show that the SPH viscosity models could have intrinsic limitations inmodelling the viscosity related effects for these canonical flows. This might imply that the SPH formulationsthat rely on these models could have a
limited range of applicability when viscosity effects in the flow aresubstantial.},
%   booktitle = {$4^th$ ERCOFTAC SPHERIC workshop on SPH applications},
}

@PHDTHESIS{gourma2003,
   AUTHOR="Gourma. M.",
   TITLE="Towards better understanding of the smoothed particle hydrodynamics method",
   SCHOOL="
   cranfield University",
   YEAR=2003,
   NOTE="{ \\ \em ELEC}"
}

@article{graczyk_moan_oe2008,
title = "A probabilistic assessment of design sloshing pressure time histories in LNG tanks",
journal = "Ocean Engineering",
volume = "35",
number = "8-9",
pages = "834 - 855",
year = "2008",
note = "",
issn = "0029-8018",
doi = "DOI: 10.1016/j.oceaneng.2008.01.020",
author = "Mateusz Graczyk and Torgeir Moan",
keywords = "Sloshing",
keywords = "Statistics",
keywords = "Pressure",
keywords = "Spatial distribution",
keywords = "Temporal distribution",
keywords = "LNG"
url = "http://www.sciencedirect.com/science/article/B6V4F-4RSJF35-2/2/eb37150124347363ad426397dcb63935",
}

@article{graczyk_moan_rognebakke,
author = {Mateusz Graczyk and Torgeir Moan and Olav Rognebakke},
collaboration = {},
title = {Probabilistic Analysis of Characteristic Pressure for LNG Tanks},
publisher = {ASME},
year = {2006},
journal = {Journal of Offshore Mechanics and Arctic Engineering},
volume = {128},
number = {2},
pages = {133-144},
keywords = {natural gas technology; statistical analysis; ships; sloshing; fluid oscillations; tanks (containers); structural engineering; design engineering; Weibull distribution; Pareto distribution},
doi = {10.1115/1.2185128}
url = {http://link.aip.org/link/?JOM/128/133/1},
}


@PHDTHESIS{gray2001,
   AUTHOR="Gray, J.P.P.",
   TITLE="Caldera collapse and the generation of waves",
   SCHOOL="Monash University",
   YEAR=2001,
   NOTE="{ \\ \em THESIS SOBRE APPLICACIONES DEL SPH CLISCO QUE USAMOS.
   VIENE BASTANTE BIEN LO DE LA FRONTERA. PERO FALTAN EXPLICAIONES}"
}

@article{gui_longo_etal_2001,
    author={L. Gui and J. Longo and B. Metcalf and J. Shao and F. Stern},
    year={2001},
    month={12/12},
    title={Forces, moment, and wave pattern for surface combatant in regular head waves Part I. Measurement systems and uncertainty assessment},
    journal={Experiments in Fluids},
    volume={31},
    number={6},
    pages={674-680},
    abstract={Abstract A model-scale naval surface combatant, DTMB 5512, is studied experimentally in steady forward speed and regular head waves with the Iowa Institute of Hydraulic Research towing-tank facilities. Unsteady resistance, heave force, pitch moment and free-surface elevations are investigated with different measurement systems for a fairly wide range of test conditions. Test data is procured for validation of RANS computational fluid dynamics codes and for understanding the physics of unsteady ship hydrodynamics. In the first part of the two-part paper, details of data reductions, measurement systems and uncertainty assessment procedures are provided.}
}
}

@article{gui_longo_etal_2002,
    author={L. Gui and J. Longo and B. Metcalf and J. Shao and F. Stern},
    year={2002},
    month={01/12},
    title={Forces, moment and wave pattern for surface combatant in regular head waves},
    journal={Experiments in Fluids},
    volume={32},
    number={1},
    pages={27-36},
    abstract={Unsteady resistance, heave force, pitch moment and free-surface elevations for DTMB 5512 at steady forward speed and in regular head waves are investigated with different measurement systems for a fairly wide range of test conditions in the IIHR towing tank. Test data are procured for validation of Reynolds-averaged Navier-Stokes computational fluid dynamics codes and for understanding the physics of unsteady ship hydrodynamics. The second part of the paper presents the measurement results and discussions.}
}
}

@article{gui_longo_stern_2001,
    author={L. Gui and J. Longo and F. Stern},
    year={2001},
    title={Towing tank PIV measurement system, data and uncertainty assessment for DTMB Model 5512},
    journal={Experiments in Fluids},
    volume={31},
    number={3},
    pages={336-346},
    abstract={A towed PIV system designed by DANTEC Measurement Technology for the Iowa Institute of Hydraulic Research towing tank is commissioned by measuring the mean velocity and Reynolds stresses at the nominal-wake plane of a model-scale ship. The mean velocities are compared with previous 5-hole pitot probe data. Uncertainty assessment following standard procedures is used to quantify the comparisons and reach conclusions regarding the quality of the data. The PIV results are analyzed with regard to axial velocity defects, axial vorticity, and level, pattern and anisotropy of turbulence. Quantitative comparisons with 5-hole pitot data shows that PIV uncertainties are about 1% lower than those for 5-hole pitot. However, data differences are larger than RSS of PIV and 5-hole pitot uncertainties for the axial and vertical velocity components, indicating unaccounted for bias and precision limits. The bias error of the pitot probe in a shear flow is discussed, and a method for reducing the bias error is
suggested. The data is being used for verification and validation of RANS simulation of DTMB Model 5512.}
}
}

@inproceedings{guilcher_etal_07,
    abstract = {The propagation of water waves is characterized by a slow dynamics, with few energy dissipation. This phenomenon thus largely differs from the classical application of free-surface SPH to fluid-structure impact flows or violent flows involving breaking waves and interface reconnections, to which the SPH method is well adapted.The present work analyzes the capability of the SPH method to deal with propagation of such wave trains by comparing various SPH formulations.Results on damping and phase shifting show that the use of Riemann solvers and renormalization techniques brings significant improvements to the standard SPH scheme},
    author = {Guilcher, P. M.  and Ducrozet, G.  and Alessandrini, B.  and Ferrant, P. },
    booktitle = {2nd SPHERIC workshop},
    citeulike-article-id = {4074487},
    keywords = {riemann, waves},
    location = {Madrid, Spain},
    month = {May},
    posted-at = {2009-02-20 11:44:32},
    priority = {2},
    title = {Water wave propagation using {SPH} models},
    year = {2007}
}
%

@ARTICLE{haddad1991,
   AUTHOR="Haddad, B. and Clausset, F. and Combes, F.",
   TITLE="Vectorising the smooth particle hydrodynamics",
   JOURNAL=JCP,
   VOLUME=97,
   NUMBER=1,
   PAGES="103--126",
   YEAR=1991,
   NOTE="{ \\ \em 1 COPIA}"
}


@book{hammerlin_hoffmann_1991,
    author={G. Hammerlin and K. H. Hoffmann},
    year={1991},
    title={Numerical mathematics},
    publisher={Springer-Verlag},
    address={New York},
    pages={422},
    note={Gunter Hammerling, Karl-Heinz Hoffmann; translated by Larry Schumaker; 19910426},
    keywords={Análisis numérico},
    isbn={0-387-97494-6},
    language={eng}
}
}

@book{Hellriegel,
    author={Don Hellriegel and John W. Slocum},
    year={1998},
    title={Administracin},
    publisher={International Thomson},
    address={Mxico},
    pages={864},
    keywords={Gestin de empresas},
    isbn={968-7529-43-1}
}


@ARTICLE{henneken1993,
   AUTHOR="Henneken, E.A.C. and Icke, V.",
   TITLE="SPH faces Emery's jump",
   JOURNAL="Computer-Physics-Communications",
   VOLUME=74,
   NUMBER=2,
   PAGES="239--246",
   YEAR=1993,
   NOTE="{ \\ \em 1 COPIA}"
}

@article{herault_bilotta_dalrymple_jhr10,
    author = {Herault, A. and Bilotta, G. and Dalrymple, R. A.},
    citeulike-article-id = {7228981},
    issn = {0022-1686},
    journal = {Journal of Hydraulic Research},
    keywords = {damper, liquid, sph, tld, tuned, viscosity},
    number = {Extra Issue},
    pages = {74--79},
    posted-at = {2010-05-30 15:36:33},
    priority = {2},
    title = {{SPH} on {GPU} with {CUDA}},
    volume = {48},
    year = {2010}
}



@ARTICLE{hernquist1989,
   AUTHOR="Hernquist, L. and Katz, N.",
   TITLE="TreeSPH: A Unification of SPH with the Hierarchical Tree Method",
   JOURNAL="Astrophysical Journal Supplement",
   VOLUME=70,
   PAGES="419--446",
   YEAR=1989,
   NOTE="{ \\ \em 1 COPIA}"
}

@ARTICLE{hicks1997,
   AUTHOR="Hicks, D.L. and Swegle J.W. and Attaway S.W.",
   TITLE="Conservative smoothing stabilizes discrete-numerical instabilities in SPH
    materials dynamics computations",
   JOURNAL="Applied Mathematics and Computation",
   VOLUME=85,
   NUMBER="2--3",
   PAGES="209--226",
   YEAR=1997,
   NOTE="{ \\ \em 1 COPIA}"
}

@ARTICLE{hicks1999,
   AUTHOR="Hicks, D.L.",
   TITLE="SPH hydrocodes can be stabilized with shape-shifting",
   JOURNAL="Computers and Mathematics with Applications",
   VOLUME=38,
   NUMBER="5--6",
   PAGES="1--16",
   YEAR=1999,
   NOTE="{ \\ \em 1 COPIA}"
}

@BOOK{hockney1988,
   AUTHOR="Hockney, R.W. and Eastwood  J.W.",
   TITLE="Computer simulation using particles",
   PUBLISHER="Adam Hilger, Bristol",
   YEAR=1988,
   NOTE="{ \\ \em NO HAY}"
}

@ARTICLE{hu2006,
   AUTHOR="Hu, X.Y. and Adams, N. A.",
   TITLE="Angular-momentum conservative {S}moothed {P}article {H}ydrodynamics for incompressible viscous flows",
   JOURNAL="Phys. of Fl.",
   VOLUME=18,
   ISSUE = 2,
   PAGES="702--706",
   YEAR=2006,
}

@ARTICLE{hu2006a,
    AUTHOR="Hu, X.Y. and Adams, N.A.",
    TITLE="A multi-phase SPH method for macroscopic and mesoscopic flows",
    JOURNAL=JCP,
    VOLUME={213 (2)},
    PAGES="844--861",
    YEAR={2006},
}

@ARTICLE{hu2006b,
    AUTHOR="Hu, X.Y and Khoo, B.C. and Adams, N.A. and Huang, F.L. ",
    TITLE="A conservative interface method for compressible flows",
    JOURNAL=JCP,
    VOLUME={219 (2)},
    PAGES="553-578",
    YEAR={2006},
}

@ARTICLE{hu2004a,
    AUTHOR="Hu, X.Y and Khoo, B.C.",
    TITLE="An interface interaction method for compressible multifluids",
    JOURNAL=JCP,
    VOLUME={198 (1)},
    PAGES="35--64",
    YEAR={2004},
}

@ARTICLE{hu2004b,
    AUTHOR="Hu, X.Y and Khoo, B.C.",
    TITLE="Kinetic energy fix for low internal energy flows",
    JOURNAL=JCP,
    VOLUME={193 (1)},
    PAGES="243--259",
    YEAR={2004},
}

@ARTICLE{huerta2000,
   AUTHOR="Huerta, A. and Fernndez-Mndez",
   TITLE="Enrichment and coupling of the finite element and meshless methods",
   JOURNAL=IJNME,
   VOLUME=48,
   PAGES="1615--1636",
   YEAR=2000,
   NOTE="{ \\ \em ELEC}"
}

@ARTICLE{huerta2002,
   AUTHOR="Huerta, A. and Fernndez-Mndez, S. and Dez, P.",
   TITLE="Enrichment of the finite element interpolation with mesh-free methods",
   JOURNAL="Mathematical Modeling and Numerical Analysis",
   VOLUME=36,
   PAGES="1027--1042",
   YEAR=2002,
   NOTE="{ \\ \em ELEC}"
}

@PHDTHESIS{humble1999,
   AUTHOR="Humble, Robin John",
   TITLE="Parallel N-body + SPH",
   SCHOOL="Monash University",
   YEAR=1999,
   NOTE="{ \\ \em NO HAY. Es el tipo de la
swinburne. Esta en Latex. Explica bien lo de Octree, rboles para buscar los vecinos y esas cosas. PEDIRLA}"
}

@book{ibrahim_2005,
    author={R. A. Ibrahim},
    year={2005},
    title={Liquid sloshing dynamics : theory and applications},
    publisher={Cambridge University Press},
    address={New York},
    pages={948},
    keywords={Hidrodinámica},
    isbn={0-521-83885-1; 978-0-521-838856}
}
}

@article{idelsohn_etal_09,
    abstract = {The paper aims to introduce new fluid–structure interaction (FSI) tests to compare experimental results with numerical ones.
 The examples have been chosen for a particular case for which experimental results are not much reported. This is the case
 of FSI including free surface flows. The possibilities of the Particle Finite Element Method (PFEM) [1] for the simulation
 of free surface flows is also tested. The simulations are run using the same scale as the experiment in order to minimize
 errors due to scale effects. Different scenarios are simulated by changing the boundary conditions for reproducing flows with
 the desired characteristics. Details of the input data for all the examples studied are given. The aim is to identifying benchmark
 problems for FSI including free surface flows for future comparisons between different numerical approaches.},
    author = {Idelsohn, S. and Marti, J. and Souto-Iglesias, A. and O\~{n}ate, E.},
    citeulike-article-id = {6699325},
    journal = {Computational Mechanics},
    month = {December},
    number = {1},
    pages = {125--132},
    posted-at = {2010-02-18 17:30:46},
    priority = {2},
    title = {Interaction between an elastic structure and free-surface flows: experimental versus numerical comparisons using the {PFEM}},
    volume = {43},
    year = {2008}
}

@article{onate04,
    author = {O\~{n}ate, E. and Idelsohn, S.R. and del Pin, F. and Aubry, R.},
    journal = {International Journal Computational Method},
    number = {1},
    pages = {267--307},
    title = {The Particle Finite Element Method. An Overview},
    issue = {2},
    year = {2004}
}

@article{idelsohn_etal_13,
    author = {Idelsohn, S.R. and Nigro, N.M. and Gimenez, J.M. and Rossi, R. Marti, J. },
    citeulike-article-id = {6699325},
    journal = {Engineering Computations},
    number = {30},
    pages = {197--222},
    title = {A fast and accurate method to solve the incompressible {Navier-Stokes} equations},
    issue = {2},
    year = {2013}
}


@ARTICLE{imaeda2002,
   AUTHOR="Imaeda, Y. and Inutsuka, S.",
   TITLE="Shear flows in smoothed particle hydrodynamics",
   JOURNAL="Astrophysical Journal",
   VOLUME=569,
   NUMBER=1,
   PAGES="501--518",
   YEAR=2002,
%   NOTE="{ \\ \em 1 COPIA}"
}

@ARTICLE{inutsuka2002,
   AUTHOR="Inutsuka, S.",
   TITLE="Reformulation of Smoothed Particle Hydrodynamics with Riemann Solver",
   JOURNAL=JCP,
   VOLUME=179,
   NUMBER=,
   PAGES="238--2667",
   YEAR=2002,
   NOTE="{ \\ \em ELEC +1 COPIA. viene la formulacin lagrangiana. habra que estudiarlo}"
}

@ARTICLE{johnson1996a,
   AUTHOR="Johnson, G.R.",
   TITLE="Artificial viscosity effects for SPH impact computations",
   JOURNAL="International Journal of Impact Engineering",
   VOLUME=18,
   NUMBER=5,
   PAGES="477-488",
   YEAR=1996,
   NOTE="{ \\ \em 1 COPIA}"
}

@ARTICLE{johnson1996b,
   AUTHOR="Johnson, G.R. and Stryk, R.A. and Beissel, S.R.",
   TITLE="SPH for high velocity impact computations",
   JOURNAL="Computer Methods in Applied Mechanics and Engineering",
   VOLUME=139,
   NUMBER="1--4",
   PAGES="347--373",
   YEAR=1996,
%   NOTE="{ \\ \em 1 COPIA}"
}

@ARTICLE{johnson1996c,
  AUTHOR="Johnson, G.R. and Beissel, S.R.",
  TITLE="Normalized smothing functions for {SPH} impact calculations",
  JOURNAL="International Journal of Numerical Methods in Engineering",
  VOLUME=39,
  NUMBER=16,
  PAGES="2725--2741",
  YEAR=1996,
%  NOTE="{ \\ \em 1 COPIA}"
}

@article{kareem_etal_1999,
    author = {Kareem, A. and Kijewski, T. and Tamura, Y.},
    citeulike-article-id = {7047166},
    journal = {Journal on Wind and Structures},
    keywords = {sloshing, tld},
    number = {3},
    pages = {201--251},
    posted-at = {2010-04-21 10:01:08},
    priority = {2},
    title = {Mitigation of motions of tall buildings with special examples of recent applications},
    volume = {2},
    year = {1999}
}

@PHDTHESIS{keneddy1991,
   AUTHOR="Keneddy, A.B.",
   TITLE="The propagation of wave over varying topography",
   SCHOOL="Monash University",
   YEAR=1991,
   NOTE="{ \\ \em NO HAY. wave propagation con un mtodo un
poco raro (local polinomial approximation}"
}

@article{Khayyer_gotoh_ijope09,
    author = {Khayyer, A. and Gotoh, H.},
    citeulike-article-id = {7036561},
    issn = {1053-5381},
    journal = {International Journal of Offshore and Polar Engineering},
    keywords = {isph, sloshing},
    month = {December},
    number = {4},
    pages = {300--307},
    posted-at = {2010-04-19 19:41:39},
    priority = {2},
    title = {Wave Impact Pressure Calculations by Improved {SPH} Methods},
    volume = {19},
    year = {2009}
}

@inproceedings{kim_etal_comparative_isope2009,
    author = {Kim, H. I. and Kwon, S. H. and Park, J. S. and Lee, K. H. and Jeon, S. S. and Jung, J. H. and Ryu, M. C. and Hwang, Y. S.},
    booktitle = {International Offshore and Polar Engineering Conference (ISOPE)},
    citeulike-article-id = {7042259},
    keywords = {sloshing},
    location = {Osaka, Japan},
    month = {June},
    organization = {The International Society of Offshore and Polar Engineers (ISOPE)},
    posted-at = {2010-04-20 11:03:18},
    priority = {0},
    title = {An {E}xperimental {I}nvestigation of {H}ydrodynamic {I}mpact on 2-{D} {LNG} {M}odels},
    year = {2009}
}

@article{kleefsman_etal_jcp_2005,
    author={K. M. T. Kleefsman and G. Fekken and A. E. P. Veldman and B. Iwanowski and B. Buchner},
    year={2005},
    month={6/10},
    title={A Volume-of-Fluid based simulation method for wave impact problems},
    journal={Journal of Computational Physics},
    volume={206},
    number={1},
    pages={363-393},
    abstract={In this paper, some aspects of water impact and green water loading are considered by numerically investigating a dambreak problem and water entry problems. The numerical method is based on the Navier–Stokes equations that describe the flow of an incompressible viscous fluid. The equations are discretised on a fixed Cartesian grid using the finite volume method. Even though very small cut cells can appear when moving an object through the fixed grid, the method is stable. The free surface is displaced using the Volume-of-Fluid method together with a local height function, resulting in a strictly mass conserving method. The choice of boundary conditions at the free surface appears to be crucial for the accuracy and robustness of the method. For validation, results of a dambreak simulation are shown that can be compared with measurements. A box has been placed in the flow, as a model for a container on the deck of an offshore floater on which forces are calculated. The water entry problem has
been investigated by dropping wedges with different dead-rise angles, a cylinder and a cone into calm water with a prescribed velocity. The resulting free surface dynamics, with the sideways jets, has been compared with photographs of experiments. Also a comparison of slamming coefficients with theory and experimental results has been made. Finally, a drop test with a free falling wedge has been simulated.},
    keywords={Wave loading; Moving body; Numerical simulation; Cartesian grid; Volume-of-Fluid; Free-surface flow}
}
}

@INPROCEEDINGS{koshizuza1995,
   AUTHOR="Koshizuka, S. and Oka, Y. and Tamako, H.",
   TITLE="A particle method for calculating splashing of incompressible viscous fluid",
   BOOKTITLE="International Conference, Mathematics and Computations, Reactor Physics, and
    Environmental Analyses",
   VOLUME=2,
   PAGES="1514--1521",
   YEAR=1995,
   NOTE="{ \\ \em 3 COPIAS. Habla de un SPH con una
forma de tratar el gradiente de presi\'on en la ecuaci\'on del
momento algo diferente. Tambi\'en es diferente el modelo que se
utiliza para imponer la incompresibilidad, aunque creo que
despu\'es ser\'a superado por los siguientes artculos de este
mismo hombre, pues este es del 95. Por otro lado, dice que el
estudio es con viscosidad pero no queda claro el tratamiento que
recibe la viscosidad. Hace una comparaci\'on con valores
experimentales del colapso de una columna de agua que podramos
intentar reproducir aqui. Para calcular la presi\'on plantea un
esquema iterativo que parece muy caro, pues
en cada paso del esquema hay que recalcular vecinos y todo}"
}

@ARTICLE{koshizuka1996,
   AUTHOR="Koshizuka, S. and Oka, Y.",
   TITLE="Moving-particle semi-implicit method for fragmentation of incompressible fluid",
   JOURNAL="Nuclear Science and Engineering",
   VOLUME=123,
   NUMBER=3,
   PAGES="421--434",
   YEAR=1996,
   NOTE="{ \\ \em 2 COPIAS}"
}

@ARTICLE{koshizuka1998,
   AUTHOR="Koshizuka, S. and Nobe, A. and Oka, Y.",
   TITLE="Numerical analysis of breaking waves using the moving particle semi-implicit method",
   JOURNAL="International Journal for Numerical Methods in Fluids",
   VOLUME=26,
   NUMBER=7,
   PAGES="751--769",
   YEAR=1998,
   NOTE="{ \\ \em 2 COPIAS + ELEC}"
}

@inproceedings{kuo_etal_isope2009,
    author = {Kuo, J. F. and Campbell, R. B. and Ding, Z. and Hoie, S. M. and Rinehart, A. J. and Sandstrom, R. E. and Yung, T. W. and Greer, M. N. and Danaczko, M. A.},
    booktitle = {International Offshore and Polar Engineering Conference (ISOPE)},
    citeulike-article-id = {6859080},
    keywords = {sloshing},
    location = {Osaka, Japan},
    month = {June},
    organization = {The International Society of Offshore and Polar Engineers ({ISOPE})},
    posted-at = {2010-03-16 20:54:19},
    priority = {0},
    title = {{LNG} {T}ank {S}loshing {A}ssessment {M}ethodology – {T}he {N}ew {G}eneration},
    year = {2009}
}


@ARTICLE{lacome2001,
   AUTHOR="Lacome, J.L.",
   TITLE="Smoothed Particle Hydrodynamics - Part I of II",
   JOURNAL="",
   YEAR="2001",
   NOTE="{ \\ \em 1 COPIA. De Chou. Monash 2004. art muy pequeo}"
}

@Book{Landau1986,
author = { Landau, L. D. and Lifshitz, E. M. },
title = { Theory of elasticity},
publisher = { Pergamon, London},
pages = { 134p. : },
year = { 1959 },
type = { Book },
language = { English },
subjects = { Elastic solids; Elasticity },
life-dates = { 1959 -  },
catalogue-url = { http://nla.gov.au/nla.cat-vn2724968 },
%title = { Theory of elasticity / by L. D. Landau and E. M. Lifshitz ; translated from the Russian by J. B. Sykes and W. H. Reid },
}

@article{landrini_etal_jfm2007,
    author = {Landrini, M. and Colagrossi, A. and Greco, M. and Tulin, M. P.},
    citeulike-article-id = {1951275},
    journal = {Journal of Fluid Mechanics},
    keywords = {sph},
    pages = {183--213},
    posted-at = {2007-11-21 13:15:35},
    priority = {2},
    title = {Gridless simulations of splashing proces and near-shore bore propagation},
    volume = {591},
    year = {2007}
}

@ARTICLE{landrini,
   AUTHOR="Landrini, M. and Colagrossi, M. and Tulin, P.P.",
   TITLE="A novel SPH formulation for 2-phase flows",
   JOURNAL="NO JOURNAL TITLE",
   YEAR="SERA 2000",
   NOTE="{ \\ \em 1 COPIA + ELEC.}"
}

@INPROCEEDINGS{landrini2003,
    AUTHOR="Landrini, M. and Colagrossi, A. and Faltinsen, O.",
    TITLE="Sloshing in 2D Flows by the SPH Method",
    BOOKTITLE="8th Int. Conf. on Num. Ship Hydrodynamics. Busan. Korea",
    MONTH="Sept.",
    YEAR=2003,
%   NOTE="{ \\ \em 2 COPIAS + ELEC. MUY BUENOS RESULTADOS DE SWAY. INCLUSO PRESION EN LAS PAREDES}"
}

@ARTICLE{landrini2007,
    AUTHOR="Landrini, M. and Colagrossi, A. and Greco, M. and Tulin, M.P.",
    TITLE="Gridless simulations of splashing proces and near-shore bore propagation",
    JOURNAL="Accepted for publication, J. Fl. Mech.",
    VOLUME="",
    PAGES="",
    YEAR=2007,
}

@ARTICLE{lanzafame1993,
    AUTHOR="Lanzafame, G. and Belvedere, G. and Molteni, D.",
    TITLE="A 3-dimensional Smoothed Particles Hydrodynamics simulation of the active
    phase of SS CYG-TYPE disks and its implications for the mass-transfer burst model",
    JOURNAL="Monthly Notices of the Royal Astronomical Society",
    VOLUME={263 (4)},
    PAGES={839-850},
    YEAR={1993}
}

@ARTICLE{lanzafame1998,
    AUTHOR="Lanzafame, G. and Molteni, D. and Chakrabarti, S.K.",
    TITLE="Smoothed particle hydrodynamic simulations of viscous accretion discs around black holes",
    JOURNAL="Monthly Notices of the Royal Astronomical Society",
    VOLUME={299 (3)},
    PAGES={799-804},
    YEAR={1998}
}

@ARTICLE{lattanzio1989,
   AUTHOR="Lattanzio, J.C. and Monaghan, J.J. and Pongracic, H. and Schwarz, M.P.",
   TITLE="Interstellar cloud collisions",
   JOURNAL="Mon. Not. R. Astron. Soc.",
   VOLUME=215,
   PAGES="125",
   YEAR=1989,
   NOTE="{ \\ \em 1 COPIA. Lo recomienda libersky
petscheck carney hipp allahdadi debe tener bien descrito el leap
frog con el q se integra tambi\'en la ec de continuidad}"
}

@article{ledizes_verga_2002,
author = {Le Diz\`{e}s,S. and Verga, A.},
title = {Viscous interactions of two co-rotating vortices before merging},
journal = {Journal of Fluid Mechanics},
volume = {467},
number = {-1},
pages = {389-410},
year = {2002},
doi = {10.1017/S0022112002001532},
}

@article{lee2008,
    author={E. -S Lee and C. Moulinec and R. Xu and D. Violeau and D. Laurence and P. Stansby},
    year={2008},
    month={9/10},
    title={Comparisons of weakly compressible and truly incompressible algorithms for the {SPH} mesh free particle method},
    journal={Journal of Computational Physics},
    volume={227},
    number={18},
    pages={8417-8436},
    keywords={SPH; Incompressible flows; Pressure Poisson equation; Lagrangian modelling}
}
}

@inproceedings{letouzesnh09,
    author = {Le Touz\'{e}, D.  and Oger, G.  and Alessandrini, B. },
    booktitle = {Proc. 27th Symposium on Naval Hydrodynamics},
    citeulike-article-id = {3497847},
    keywords = {free-surface, ship, sph},
    location = {Seoul, Korea},
    posted-at = {2008-11-09 11:31:21},
    priority = {2},
    title = {Smoothed Particle Hydrodynamics simulation of fast ship flows},
    year = {2008}
}
%

@inproceedings{monaghanSPHERIC2009,
author = { Monaghan, J. J. and  Kajtar, J. B.},
    booktitle = {4th ERCOFTAC SPHERIC workshop on SPH applications},
    citeulike-article-id = {7036378},
    day = {27},
    keywords = {fsi, sph},
    location = {Nantes, France},
    month = {May},
    pages = {216--219},
    posted-at = {2010-04-19 18:16:30},
    priority = {2},
    title = {SPH Boundary Forces},
    year = {2009}
}
%

@ARTICLE{libersky1993,
   AUTHOR="Libersky, L.D. and Petschek, A.G. and Carney, T.C. and Hipp, J.R. and Allahdadi, F.A.",
   TITLE="High strain Lagrangian hydrodynamics a three-dimensional SPH code for dynamic material response",
   JOURNAL=JCP,
   VOLUME=109,
   NUMBER=1,
   PAGES="67--75",
   YEAR=1993,
   NOTE="{ \\ \em 1 COPIA.
Da detalles interesantes sobre las boundary conditions}"
}

@ARTICLE{liu2003,
   AUTHOR="Liu, M.B. and Liu, G.R. and Lan, K.Y.",
   TITLE="Constructing smoothing functions in smoothed particle hydrodynamics with applications",
   JOURNAL="Journ. of Comp. and Appl. Math.",
   VOLUME=15,
   PAGES="263--284",
   YEAR=2003,
   NOTE="{ \\ \em ELEC. tiene cosas interesantes sobre diferentes kernel}"
}

@Comment{1 COPIA: libro solo sobre SPH. pero no parece tan bueno.}
@BOOK{liu2003book,
    AUTHOR="Liu, G.R. and Liu, M.B.",
    TITLE="Smoothed particle hydrodynamics. A meshfree particle method",
    PUBLISHER="World Scientific Publishing Co. Pte. Ltd.",
    YEAR=2003,
}

@ARTICLE{liu2006a,
    AUTHOR="Liu, G.R. and Dai, K.Y.  and Han X. and Li, Y.",
    TITLE="A meshfree minimum length method for 2-D problems",
    JOURNAL="Computational Mechanics (in press)",
    VOLUME=,
    PAGES=,
    YEAR={2006},
}

@ARTICLE{liu2006b,
    AUTHOR="Liu, G.R. and Bernard, B.T. Kee",
    TITLE="A stabilized least-squares radial point collocation method (LS-RPCM) for adaptive analysis",
    JOURNAL="Computer Method in Applied Mechanics and Engineering",
    VOLUME=,
    PAGES=,
    YEAR={2006},
}

@inproceedings{Lobovsky_Groenenboom_SPHERIC_09,
    abstract = {Within this study attention is paid to numerical
simulation of fluid-structure interaction (FSI) by means of the
smoothed particle hydrodynamics (SPH) method. A series of FSI
simulations has been carried out using two independent solvers,
the pure SPH code and the coupled SPH and finite element (FE)
solver. Within both codes, the FSI is realised through a penalty
contact force algorithm (which is relatively simple, fast and
flexible). The results of the pure SPH and FE-SPH simulations
have been confronted with each other and with experimental and
numerical data published in literature. Even though a
satisfactory agreement between results of the performed
simulations and the published data can be achieved, a significant
inconsistency between SPH and FE-SPH results is observed when
the same model is applied. It is shown that the inconsistency
between results of the pure SPH code and of the FE-SPH
simulation is not caused by the SPH model for the fluid or by the
penalty contact force algorithm, but by a difference in the elastic
response of the FE elastic material and of the SPH elastic solid,
which is related to the SPH solid model representation and its
additional stabilising terms.},
    author = {Lobovsk\'{y}, L. and Groenenboom, P. H. L.},
    booktitle = {4th ERCOFTAC SPHERIC workshop on SPH applications},
    citeulike-article-id = {7036378},
    day = {27},
    keywords = {fsi, sph},
    location = {Nantes, France},
    month = {May},
    pages = {378--383},
    posted-at = {2010-04-19 18:16:30},
    priority = {2},
    title = {Remarks on {FSI} simulations using {SPH}},
    year = {2009}
}

@ARTICLE{lombardi1999,
   AUTHOR="Lombardi, J.C. and Sills, A. and Rasio, F.A. and Shapiro, S.L.",
   TITLE="Tests of spurious transport in smoothed particle hydrodynamics",
   JOURNAL=JCP,
   VOLUME=152,
   PAGES="687--735",
   YEAR=1999,
   NOTE="{ \\ \em 2 COPIAS + ELEC}"
}

@article{longo_stern_jsr_2005,
    author={Joe Longo and Fred Stern},
    year={2005},
    title={Uncertainty assessment for towing tank tests with example for surface combatant DTMB model 5415},
    journal={Journal of Ship Research},
    volume={49},
    number={1},
    pages={55-68},
    abstract={Uncertainty assessment methodology, procedures, and results are presented for most typical towing tank tests using a 3.048 m geosym of naval combatant DTMB model 5415, which is an established benchmark for computational fluid dynamics validation. The tests include resistance, sinkage and trim, wave profile, wave elevations, and nominal wake. The procedures are summarized and follow International Towing Tank Conference Quality Manual Procedures. The facility and measurement systems are briefly described, and detailed uncertainty assessment examples for each test are provided with descriptions of bias and precision limits and total uncertainties.},
    keywords={Ship testing; Ship model tanks; Computational fluid dynamics; Wakes; Risk assessment; Standards; Calibration; Mathematical models; Computer simulation},
    isbn={0022-4502}
}
}

@ARTICLE{lucy1977,
   AUTHOR="Lucy, L.B.",
   TITLE="A numerical approach to the testing of the fission hypothesis",
   JOURNAL="Astronomical Journal",
   VOLUME=82,
   PAGES="1013--1024",
   YEAR=1977,
%   NOTE="{ \\ \em NO HAY. REFERENCIA ABSOLUTA DE SPH}"
}

@ARTICLE{luehr1994,
   AUTHOR="Luehr, C.P. and Allahdadi, F.A.",
   TITLE="Fundamentals of smoothed particle hydrodynamics (SPH)",
   JOURNAL="Aerospace Sciences Meeting and Exhibit 32nd Reno",
   MONTH="Jan.",
   YEAR=1994,
   NOTE="{ \\ \em 1 COPIA}"
}

@article{lugni,
  author =   {C. Lugni and M. Brocchini and O. M. Faltinsen},
  year =     {2006},
  title =    {Wave impact loads: The role of the flip-through},
  journal =  {Physics of Fluids},
  volume =   {18},
  number =   {12},
  pages =    {101-122},
  keywords =     {surface waves (fluid); sloshing; laser velocimetry; bubbles; two-phase flow; mixing; jets},
  url =      {http://link.aip.org/link/?PHF/18/122101/1}
}

@article{Macia,
    author = {Maci\`{a}, F. and S\'{a}nchez, J. M. and Souto-Iglesias, A. and Gonz\'{a}lez, L. M.},
    citeulike-article-id = {7475117},
    journal = {International Journal for Numerical Methods in Fluids},
    keywords = {laplacian, sph, viscosity},
    posted-at = {2010-07-14 08:09:07},
    priority = {2},
    title = {{WCSPH} viscosity diffusion processes in vortex flows},
    year = {(submitted for publication)}
}

@INPROCEEDINGS{Ferrand2011,
   AUTHOR="Ferrand, M. and Violeau, D. and Rogers, B. and Laurence, D.",
   TITLE="Consistent wall boundary treatment for laminar and turbulent flows in SPH",
   BOOKTITLE="6th International Spheric Workshop, Hamburg, Germany",
   YEAR=2011,
}

@INPROCEEDINGS{GonzalezSPHERIC2011,
   AUTHOR="Gonz\'{a}lez, L.M. and Souto-Iglesias, A. and  Maci\`{a}, F. and Colagrossi, A. and Antuono, M.",
   TITLE="On the no-slip boundary condition enforcement
in SPH methods",
   BOOKTITLE="6th International Spheric Workshop, Hamburg, Germany",
   YEAR=2011,
}

@article{MaciaPTP,
    author = {Maci\`{a}, F. and Antuono, M. and Gonz\'{a}lez, L. M. and Colagrossi, A.},
    citeulike-article-id = {7475117},
    journal = {Progress of Theoretical Physics},
    volume = {125},
    pages = {1091-1121},
    title = {Theoretical Analysis of the No-Slip Boundary Condition Enforcement in SPH Methods},
    year = {2011}
}

@article{MaciaPTP2012,
    author = {Maci\`{a}, F. and Gonz\'{a}lez, L. M. and  Cerc\'{o}s-Pita, J. L.
and Antonio Souto-Iglesias, A.},
    journal = {Progress of Theoretical Physics},
    volume = {128},
    pages = {1091-1121},
    title = {A Boundary Integral SPH Formulation. Consistency and Applications to ISPH and WCSPH},
    year = {2012}
}

@book{majda_bertozzi_2002,
   AUTHOR = {Majda, Andrew J. and Bertozzi, Andrea L.},
    TITLE = {Vorticity and incompressible flow},
   SERIES = {Cambridge Texts in Applied Mathematics},
   VOLUME = {27},
PUBLISHER = {Cambridge University Press},
  ADDRESS = {Cambridge},
     YEAR = {2002},
    PAGES = {xii+545},
     ISBN = {0-521-63057-6; 0-521-63948-4},
  MRCLASS = {76-02 (35Q30 35Q35 76B03 76D03 76D05)},
 MRNUMBER = {MR1867882 (2003a:76002)},
MRREVIEWER = {Yuxi Zheng},
}

@phdthesis{marsh_phd2010,
    author = {Marsh, A.},
    citeulike-article-id = {7047754},
    keywords = {sloshing, sph, tld},
    posted-at = {2010-04-21 12:18:57},
    priority = {2},
    school = {Victoria University, Melbourne, Australia},
    title = {Design of Effective Traveling Wave Sloshing Absorbers for Structural Control},
    year = {2010}
}

@ARTICLE{may2003,
   AUTHOR="May, D.A. and Monhagan, J.J.",
   TITLE="Can a single bubble sink a ship",
   JOURNAL="Am. J. Phys.",
   VOLUME=71,
   NUMBER=8,
   YEAR=2003,
   NOTE="{ \\ \em 1 COPIA + ELEC}"
}

@ARTICLE{medina2000,
   AUTHOR="Medina, D.F. and Chen, J.K.",
   TITLE="Three-dimensional simulations of impact induced damage in composite
    structures using the parallelized SPH method",
   JOURNAL="Composites Part-A-(Applied Science and Manufacturing)",
   VOLUME="31A",
   NUMBER=8,
   PAGES="853--860",
   YEAR=2000,
   NOTE="{ \\ \em 1 COPIA}"
}

@ARTICLE{Moakher2007,
    AUTHOR="Moakher, M.",
    TITLE="Fourth-order cartesian tensors: old and new facts, notions and applications",
    JOURNAL="Q. Jl Mech. Appl. Math",
    VOLUME="61",
    NUMBER=2,
    PAGES="181-203",
    YEAR=2007,
}

@article{molteni_colagrossi_2009,
    author = {Molteni, D. and Colagrossi, A.},
    citeulike-article-id = {5867513},
    journal = {Computer Physics Communications},
    keywords = {diffusion, pressure\_evaluation, sph},
    pages = {861--872},
    posted-at = {2009-10-01 14:12:29},
    priority = {2},
    title = {A simple procedure to improve the pressure evaluation in hydrodynamic context using the {SPH}},
    volume = {180},
    year = {2009}
}


@article{Monaghan+Gingold:83,
    author = {Monaghan, J. J.  and Gingold, R. A. },
    citeulike-article-id = {1951331},
    journal = {Journal of Computational Physics},
    keywords = {SPH},
    number = {2},
    pages = {374--389},
    posted-at = {2007-11-21 13:15:35},
    priority = {2},
    title = {Shock Simulation by the particle method {SPH}},
    volume = {52},
    year = {1983}
}

@ARTICLE{mon1985a,
   AUTHOR="Monaghan, J.J. and Lattanzio, J.C.",
   TITLE="A refined particle method for astrophysical problems",
   JOURNAL="Astron. Astrophys.",
   VOLUME=149,
   PAGES=135,
   YEAR=1985,
   NOTE="{ \\ \em NO HAY}"
}

@ARTICLE{mon1985b,
   AUTHOR="Monaghan, J.J.",
   TITLE="Particle methods for hydrodynamics",
   JOURNAL="Computer-physics-reports",
   VOLUME=3,
   NUMBER=2,
   PAGES="71--124",
   YEAR=1985,
   NOTE="{ \\ \em 1 COPIA}"
}

@ARTICLE{mon1988a,
   AUTHOR="Monaghan, J.J.",
   TITLE="An introduction to {SPH}",
   JOURNAL="Computer Physics Communications",
   PAGES="89--96",
   YEAR=1988,
%   NOTE="{ \\ \em 1 COPIA}"
}

@ARTICLE{mon1988b,
   AUTHOR="Monaghan, J.J. and Varnas, S.R.",
   TITLE="Artificial viscosity e.t.c.",
   JOURNAL="MNRAS",
   VOLUME=231,
   PAGES="515",
   YEAR=1988,
   NOTE="{ \\ \em NO HAY}"
}

@ARTICLE{mon1989,
   AUTHOR="Monaghan, J.J.",
   TITLE="On the problem of penetration in particle methods",
   JOURNAL=JCP,
   VOLUME=82,
   YEAR=1989,
   NOTE="{ \\ \em 2 COPIAS. alli viene lo del leap frog}"
}

@ARTICLE{mon1992,
   AUTHOR="Monaghan, J.J.",
   TITLE="{S}moothed {P}article {H}ydrodynamics",
   JOURNAL="Annual Review of Astronomy and astrophysics",
   VOLUME=30,
   PAGES="543--574",
   YEAR=1992,
%   NOTE="{ \\ \em 2 COPIAS. ESTE ARTICULO SE SUELE CITAR PARA LOS PRINCIPIOS DE SPH}"
}

@ARTICLE{mon1993,
   AUTHOR="Monaghan, J.J. and Humble, R.J.",
   TITLE="Vortex particle methods for periodic chanel flow",
   JOURNAL=JCP,
   VOLUME=107,
   PAGES="152--159",
   YEAR=1993,
%   NOTE="{ \\ \em ELEC + 1 COPIA. NO LO HE ESTUDIADO. HABL DHOLDMAN DE LO DE VORTEX METHOD, TAMBIEN EN EL
%   REVIEW DE 2005 DEL GRIEGO. SERIA INTERESANTE VER BIEN DE QUE VA ESTO}"
}

@ARTICLE{mon1994a,
   AUTHOR="Monaghan, J.J.",
   TITLE="Vorticity, angular momentum and cloud fragmentation",
   JOURNAL="The astrophysical Journal",
   VOLUME=420,
   PAGES="692--704",
   YEAR=1994,
   NOTE="{ \\ \em 1 COPIA}"
}

@ARTICLE{mon1994b,
   AUTHOR="Monaghan, J.J.",
   TITLE="Simulating Free Surface Flows with {SPH}",
   JOURNAL=JCP,
   VOLUME=110,
   NUMBER=2,
   PAGES="39--406",
   YEAR=1994,
   %% @ARTICLE{colagrossi_notation,
}

@TECHREPORT{mon1994c,
   AUTHOR="Monaghan, J.J. and Thompson, M. and Hourigan, K.",
   TITLE="A simulation of fixed and moving jets",
   INSTITUTION="Monash University",
   YEAR=1994,
   NOTE="{ \\ \em 1 COPIA}"
}

@ARTICLE{mon1994d,
   AUTHOR="Monaghan, J.J.",
   TITLE="Volcanoes, tsunamis and the demise of the Minoans",
   JOURNAL="Physica D",
   VOLUME=77,
   PAGES="217--228",
   YEAR=1994,
   NOTE="{ \\ \em 1 COPIA}"
}

@TECHREPORT{mon1995a,
   AUTHOR="Monaghan, J.J.",
   TITLE="Simulating Gravity Currents with SPH. Part I: Lock Gates",
   INSTITUTION="University of Monash",
   YEAR=1995,
   NOTE="{ \\ \em 2 COPIAS}"
}

@TECHREPORT{mon1995b,
   AUTHOR="Monaghan, J.J.",
   TITLE="Simulating Gravity Currents with SPH. Part II: Flow in a horizontal tank",
   INSTITUTION="University of Monash. Preprint",
   YEAR=1995,
   NOTE="{ \\ \em 1 COPIA}"
}

@TECHREPORT{mon1995c,
   AUTHOR="Monaghan, J.J.",
   TITLE="Simulating Gravity Currents with SPH. Part III: Boundary Forces",
   INSTITUTION="University of Monash",
   YEAR=1995,
   NOTE="{ \\ \em NO HAY}"
}

@ARTICLE{mon1995d,
   AUTHOR="Monaghan, J.J. and Kocharyan",
   TITLE="SPH simulation of multi-phase flow",
   JOURNAL="Computer Physics Communications",
   VOLUME=87,
   NUMBER="1--2",
   PAGES="225",
   YEAR=1995,
   NOTE="{ \\ \em 1 COPIA}"
}

@TECHREPORT{mon1995e,
   AUTHOR="Monaghan, J.J.",
   TITLE="SPH Technical NOTEs : Improved Modelling of boundaries",
   INSTITUTION="University of Monash",
   YEAR=1995,
   NOTE="{ \\ \em 1 COPIA. Art muy pequeo donde viene la forma de la fuerza de frontera.}"
}

@TECHREPORT{mon1995e,
   AUTHOR="Monaghan, J.J.",
   TITLE="A SPH formulation of surface tension",
   INSTITUTION="University of Monash",
   YEAR=1995,
   NOTE="{ \\ \em 1 COPIA. VIENE TAMBIEN UNA FORMULACIN LAGRAGIANA DEL MOVIMIENTO. ME LO LLEVO A VTECH}"
}

@ARTICLE{mon1996,
   AUTHOR="Monaghan, J.J.",
   TITLE="Gravity currents and solitary waves",
   JOURNAL="Physica D. Nonlinear phenomena",
   VOLUME=98,
   NUMBER="2--4",
   PAGES="523--533",
   YEAR=1996,
   NOTE="{ \\ \em NO HAY}"
}
@ARTICLE{mon1997a,
   AUTHOR="Monaghan, J.J.",
   TITLE="Implicit SPH drag and dusty gas dynamics",
   JOURNAL=JCP,
   VOLUME=138,
   NUMBER=2,
   PAGES="801--820",
   YEAR=1997,
   NOTE="{ \\ \em ELEC + 1 COPIA Q NO SE DONDE ESTA. EN CASA IGUAL. VIENE LO DEL IMPLICITO QUE SE PUEDE
   HACER EN EL CASO DE DRAG PERO Q YA ES MAS DIFICIL EN NUESTRO CASO (AHORA NO ME ACUERDO PORQUE)}"
}

@ARTICLE{mon1997b,
   AUTHOR="Monaghan, J.J.",
   TITLE="SPH and Riemann Solvers",
   JOURNAL=JCP,
   VOLUME=136,
   PAGES="298",
   YEAR=1997,
   NOTE="{ \\ \em ELEC + 1 COPIA}"
}


@ARTICLE{mon1999a,
   AUTHOR="Monaghan, J.J. and Kos, A.",
   TITLE="Solitary waves on a Cretan Beach",
   JOURNAL="J. Waterway, Port, Coastal, and Ocean Eng.",
   VOLUME=125,
   NUMBER=3,
   PAGES="145",
   YEAR=1999,
   NOTE="{ \\ \em 3 COPIAS}"
}

@ARTICLE{mon1999b,
   AUTHOR="Monaghan, J.J. and Cas, R.C. and Kos, A. and Hallworth, M.A.",
   TITLE="Gravity currents descending a ramp in a stratified tank",
   JOURNAL=JFM,
   VOLUME=139,
   PAGES="39",
   YEAR=1999,
   NOTE="{ \\ \em 3 COPIAS}"
}

@ARTICLE{mon2000a,
   AUTHOR="Monaghan, J.J. and Kos, A.",
   TITLE="Scott Russell's Wave Generator",
   JOURNAL="Phys. of Fluids",
   VOLUME=12,
   NUMBER=3,
   PAGES="622",
   YEAR=2000,
   NOTE="{ \\ \em 2 COPIAS}"
}

@ARTICLE{mon2000b,
   AUTHOR="Monaghan, J.J.",
   TITLE="{SPH} without a tensile instability",
   JOURNAL=JCP,
   VOLUME=159,
   NUMBER=2,
   PAGES="290--311",
   YEAR=2000,
%   NOTE="{ \\ \em ELEC + 2 COPIAS. VIENE LO DE LA PRESION QUE SE AADE EN RATES }"
}

@ARTICLE{mon2000c,
   AUTHOR="Monaghan, J.J.",
   TITLE="New developments in smoothed particle hydrodynamics",
   JOURNAL="Mesh free method for PDE",
   VOLUME=,
   NUMBER=,
   PAGES="",
   YEAR=2000,
   NOTE="{ \\ \em 1 COPIA. de Chou Monash04. Ser del 2000 pero nada seguro. Tiene algo de Lagrangian y SPH,
   tambien de reduction de la disipacin. Me lo llevo a VTECH.}"
}

@ARTICLE{mon2002a,
   AUTHOR="Monaghan, J.J.",
   TITLE="SPH compressible turbulence",
   JOURNAL="Mon. Not. R. Astrom. Soc.",
   VOLUME=335,
   PAGES="843--852",
   YEAR=2002,
   NOTE="{ \\ \em ELEC. DEMASIADO}"
}

@ARTICLE{mon2004a,
   AUTHOR="Monaghan, J.J.",
   TITLE="Energy transfer in a particle $\alpha$ model",
   JOURNAL="Journal of Turbulence",
   VOLUME=5,
   YEAR=2004,
   NOTE="{ \\ \em ELEC. D}"
}

@UNPUBLISHED{mon2004b,
   AUTHOR="Monaghan, J.J.",
   TITLE="Interpolation from particle",
   YEAR=2004,
   NOTE="{ \\ \em 1 COPIA + ENCUAERNADO E2 EN CARPETA MONAGHAN. Appuntes de clase en Monash. Buena introduccin al SPH}"
}

@article{mon2005,
   Author = {Monaghan, J.~J.},
   Title = {Smoothed particle hydrodynamics},
   Journal = {Reports on Progress in Physics},
   Volume = {68},
   Pages = {1703-1759},
   Keywords = {review},
   Year = {2005}
  %% colagrosss%%% @article{Monaghan2005,
}

@article{monaghan2005b,
   Author = {Monaghan, J.~J.},
   Title = {Smoothed {P}article {H}ydrodynamic simulations of shear flow},
   Journal = {Monthly Notices of the Royal Astronomical Society},
   Volume = {365},
   Pages = {199-213},
     Keywords = {SPH,viscosity},
   Year = {2005},
   doi = {10.1111/j.1365-2966.2005.09783.x},
   url = {http://dx.doi.org/10.1111/j.1365-2966.2005.09783.x}
}

@article{mon2006b,
   Author = {Monaghan, J.~J. and Price, D. J.},
   Title = {Toy Stars in two dimensions},
   Journal = {Monthly Notices of the Royal Astronomical Society},
   Volume = {365},
   Pages = {991-1006},
     Keywords = {SPH,astro},
   Year = {2005},
   doi = {doi: 10.1111/j.1365-2966.2005.09704.x} ,
   url = {http://dx.doi.org/10.1111/j.1365-2966.2005.09704.x}
}

@ARTICLE{mon2003a,
   AUTHOR="Monaghan, J.J. and Kos, A. and Issa, N.",
   TITLE="Fluid motion generated by impact",
   JOURNAL="University of Monash",
   VOLUME=129,
   NUMBER=6,
   PAGES="250--259",
   YEAR=2003,
   NOTE="{ \\ \em 1 COPIA. HAY UN OBJECTO EN EL AGUA. FORMULACION SIMILAR A LA QUE USAMOS PARA CAJAS}"
}


@BOOK{morris_instrumentation_2001,
  author={Alan S Morris},
  title={Measurement and Instrumentation Principles},
  PUBLISHER = {Butterworth-Heinemann, Oxford},
  YEAR = {2001}
}






@PHDTHESIS{morris1996,
   AUTHOR="Morris, J.P.",
   TITLE="Analysis of SPH with applications",
   SCHOOL="Mathematics Department, Monash University, Melbourne, Australia",
   YEAR=1996,
   NOTE="{ \\ \em 1 COPIA Hace un an\'alisis de las
propiedades de estabilidad de SPH que est\'a muy interesante.
Relaciones de dispersion, etc. A ver si la consigo electrnicamente..}"
}

@article{Morris+etal:1997,
    author = {Morris, Joseph  P.  and Fox, Patrick  J.  and Zhu, Yi  },
    citeulike-article-id = {1951361},
    doi = {http://dx.doi.org/10.1006/jcph.1997.5776},
    journal = {Journal of Computational Physics},
    keywords = {SPH, boundaries, viscous},
    pages = {214--226},
    posted-at = {2007-11-21 13:15:35},
    priority = {2},
    title = {Modeling Low {R}eynolds Number Incompressible Flows Using {SPH}},
    volume = {136},
    year = {1997},
    %NOTE="{ \\ \em 2 COPIAS + ELEC}"
   %    url = {http://dx.doi.org/10.1006/jcph.1997.5776},
   % colagrossi bib% @article{morris1997,
}


@ARTICLE{morris1997b,
   AUTHOR="Morris, J.P. and Monaghan, J.J.",
   TITLE="A switch to reduce SPH viscosity",
   JOURNAL=JCP,
   VOLUME=136,
   NUMBER=1,
   PAGES="41--50",
   YEAR=1997,
%   NOTE="{ \\ \em ELEC}"
}

@ARTICLE{morris2000,
   AUTHOR="Morris, J.P.",
   TITLE="Simulating surface tension with smoothed particle
    hydrodynamics",
   JOURNAL="International Journal for Numerical Methods in Fluids",
   VOLUME=33,
   NUMBER=3,
   PAGES="333-353",
   YEAR=2000,
   NOTE="{ \\ \em 1 COPIA. cuenta como estimar la
curvatura de la superficie libre. lo hace en 2D, pero dice q las
ideas se extienden facilmente a 3D}"
}

@ARTICLE{moussa2000,
    AUTHOR="Moussa, B.B. and Villa, J.P.",
    TITLE="Convergence of SPH method for scalar nonlinear conservation laws",
    JOURNAL="Siam J. Numerical Analysis",
    YEAR=2000,
   NOTE="{ \\ \em NO HAY. HAY QUE CONSEGUIR ARTICULOS SUYOS. LO CITA COLAGROSSI Y OTROS POR TEMAS DE CONVERGENCIA O STABILITY ANALYSIS DE SPH}"
}

@PHDTHESIS{murray1994,
    AUTHOR="Murray, J.R.",
    TITLE="SPH simulations of accretion disks in cataclysmic variables",
    SCHOOL="Monash University",
    YEAR=1994,
   NOTE="{ \\ \em NO HAY. creo que tiene bien lo de
diferentes time steps para diferentes partculas}"
}

@INPROCEEDINGS{naito2001,
    AUTHOR="Naito, S. and Sueyoshi, M.",
    TITLE="A Numerical Analysis of Violent Free Surface Flow on Flooded Car Deck using Particle
    Method",
    BOOKTITLE="5th International Workshop Stability and Operational Safety of Ships.
    Trieste",
    MONTH="Sept.",
    YEAR=2001,
   NOTE="{ \\ \em 3 COPIAS. Inundaci\'on en cubiertas de
roros por partculas con el semiimplicito de Koshikuza}"
}

@ARTICLE{nordstroem1997,
    AUTHOR="Nordstroem, H.",
    TITLE="Some Methods for Treating Boundaries in SPH (Nagra Metoder foer att Behandla
    Raender i SPH)",
    JOURNAL="NASA-no",
    YEAR=1997,
   NOTE="{ \\ \em NO HAY. ESTA EN SUECO. NO LO HE PEDIDO}"
}

@ARTICLE{nugent2000,
    AUTHOR="Nugent, S. and Posch, H.A.",
    TITLE="Liquid drops and surface tension with smoothed particle
    applied mechanics",
    JOURNAL="Physical Review E",
    VOLUME=62,
    NUMBER=4,
    YEAR=2000,
   NOTE="{ \\ \em 1 COPIA}"
}

@ARTICLE{oger2006,
    AUTHOR="Oger, G. and Doring, M. and Alessandrini, B. and Ferrant, P.",
    TITLE="Two-dimensional SPH simulations of wedge water entries",
    JOURNAL=JCP,
    VOLUME={213 (2)},
    PAGES="803--822",
    YEAR={2006},
}

@inproceedings{olsen_dnv_1976,
    author={H. Olsen},
    year={1976},
    title={Local impact pressures in basically prismatic tanks},
    booktitle={Seminar on Liquid Sloshing},
    publisher={Det Norske Veritas (DNV)},
    pages={1-24}
}
}

@ARTICLE{ott2003,
   AUTHOR="Ott, F. and Schnetter, E.",
   TITLE="A modified SPH approach for fluids with large density differences",
   JOURNAL=JCP,
   VOLUME=,
   NUMBER=,
   PAGES="",
   YEAR=2003,
   NOTE="{ \\ \em 2 COPIAS, LO TRAIG CHOU DE MONASH 2004. BIFSICO.}"
}

@ARTICLE{owen2004,
    AUTHOR="Owen, J.M.",
    TITLE="A tensor artificial viscosity for SPH",
    JOURNAL=JCP,
    YEAR=2004,
   NOTE="{ \\ \em ELEC.}"
}

@PHDTHESIS{oxley1999,
    AUTHOR="Oxley, S.",
    TITLE="Modelling of the capture thery for the origin of planetary systems",
    SCHOOL="University of York",
    MONTH="Dec.",
    YEAR=1999,
   NOTE="{ \\ \em COPIA DE UNA PARTE. Buenos fundamentos de SPH. esta en la web}"
}

@ARTICLE{parshikov2002,
    AUTHOR="Parshikov, A.N. and Medin, S.A.",
    TITLE="Smoothed Particle Hydrodynamics using interparticle contact
    Algorithms",
    JOURNAL=JCP,
    VOLUME=180,
    PAGES="358--382",
    YEAR=2002,
   NOTE="{ \\ \em 2 COPIAS. Lo use en Monash2003
porque me lo recomend Monaghan.  Resuelven problemas de contacto
mediante aplicacin de sucesivas soluciones de Riemann solvers.
Cuando lo aplicamos a la burbuja, la suavizacion que se tiene en
el campo de presiones hacia que las partculas de liquido se
mezclasen con las del gas. En el caso de las tres partculas
verticales (la del medio gas), con densidades 1000/1, sin embargo
hizo que se acabase el rebote. En realidad Joe dice que esta
funcionando como una viscosidad artificial. They solve contact
problems using successive solutions of a Riemann solver. In the
three vertical particles test, it makes the situation much better,
suppressing the bounce, but when we applied this to the bubble,
the smoothing that appears in the pressure field, induces a mixing
of the air-water particles.
Joe states it is working as an artificial viscosity}"
}

@PHDTHESIS{partha1993,
    AUTHOR="Parthasarathy, S.",
    TITLE="A new approach to the simulation of fluid particle systems",
    SCHOOL="Monash University",
    YEAR=1993,
   NOTE="{ \\ \em NO HAY}"
}

@TECHREPORT{pastoor2005,
   author = "Pastoor, W. and Klungseth-Ostvold, T. and Byklum, E. and Valsgard, S.",
   title = "Sloshing load and response in {LNG} carriers for New designs, new operations and new trades",
   INSTITUTION = {Det Norske Veritas Technical Paper},
   year = 2005,
}

@article{perez_suarez_clemente_souto_2007,
    author={F. P\'erez and J. A. Su\'arez and J. A. Clemente and A. Souto-Iglesias},
    year={2007},
    title={Geometric modelling of bulbous bows with the use of non-uniform rational {B-spline} surfaces},
    journal={Journal of Marine Science and Technology},
    volume={12},
    number={2},
    pages={83-94},
    isbn={0948-4280 (Print) 1437-8213 (Online)}
}
}

@article{Peskin1972,
title = "Flow patterns around heart valves: A numerical method",
journal = "Journal of Computational Physics",
volume = "10",
number = "2",
pages = "252 - 271",
year = "1972",
note = "",
issn = "0021-9991",
doi = "DOI: 10.1016/0021-9991(72)90065-4",
url = "http://www.sciencedirect.com/science/article/B6WHY-4DDR57R-YK/2/b5a8c317f91802612928b092b1b22b54",
author = "Charles S. Peskin"
}

@ARTICLE{peskin1977,
    AUTHOR="Peskin",
    TITLE="Numerical analysis of blood flow in the heart",
    JOURNAL=JCP,
    VOLUME=25,
    PAGES="220--252",
    YEAR=1977,
   NOTE="{ \\ \em 1 COPIA. No le he dedicado todo el tiempo
que merece. Trata sobre c\'omo construir las condiciones de
contorno utilizando partculas en la frontera. Lo hace de modo que
sea conservativo en la energa. DICE COMO MULTIPLICAR LA FUERZA DE FRONTERA DE TAL MODO Q
UNA PART VIAJANDO PARALELMENTE A ELLA SE QUEDE AS, SIN FUERZAS PERPENDICULARES}"
}

@ARTICLE{petscheck1993,
    AUTHOR="Petscheck, A.G. and Libersky, L.D.",
    TITLE="Cylindrical Smoothed Particle Hydrodynamics",
    JOURNAL=JCP,
    VOLUME=109,
    PAGES="76--83",
    YEAR=1993,
   NOTE="{ \\ \em 1 COPIA. habla de c\'omo escribir en
cilndricas 2D las ecuaciones SPH. No veo su inter\'es.}"
}

@PHDTHESIS{price,
    AUTHOR="Price, D.J.",
    TITLE="Thesis sobre SPH",
    SCHOOL="Monash University",
    YEAR=,
    NOTE="{ \\ \em Thesis de Price. Solo tenemos el capitulo de SPH que esta muy bien hecho}"
}

@ARTICLE{price2003a,
    AUTHOR="Price, D.J. and Monaghan, J.J.",
    TITLE="Smoothed particle magnetohydrodynamics - I. Algorithms and
    tests in one dimension",
    JOURNAL="Mon. Not. R. Astron. Soc.",
    VOLUME=0,
    PAGES="1--16",
    YEAR=2003,
   NOTE="{ \\ \em 1 COPIA}"
}

@ARTICLE{price2003b,
    AUTHOR="Price, D.J. and Monaghan, J.J.",
    TITLE="Smoothed particle magnetohydrodynamics - II. Variational principles
    and variable smoothing length terms",
    JOURNAL="Mon. Not. R. Astron. Soc.",
    VOLUME=0,
    PAGES="1--13",
    YEAR=2003,
   NOTE="{ \\ \em 1 COPIA}"
}

@article{Quinlan_06,
    author = {Quinlan, Nathan J. and Lastiwka, Martin and Basa, Mihai},
    citeulike-article-id = {1951401},
    citeulike-linkout-0 = {http://dx.doi.org/10.1002/nme.1617},
    journal = {International Journal for Numerical Methods in Engineering},
    keywords = {sph, theory},
    number = {13},
    pages = {2064--2085},
    posted-at = {2007-11-21 13:15:36},
    priority = {2},
    title = {Truncation error in mesh-free particle methods},
    url = {http://dx.doi.org/10.1002/nme.1617},
    volume = {66},
    year = {2006}
}

@inproceedings{raffie_thiagara_monaghan_isope2009,
    author = {Rafiee, A. and Thiagarajan, K. P. and Monaghan, J. J.},
    booktitle = {International Offshore and Polar Engineering Conference (ISOPE)},
    citeulike-article-id = {7042377},
    location = {Osaka, Japan},
    month = {June},
    organization = {The International Society of Offshore and Polar Engineers (ISOPE)},
    posted-at = {2010-04-20 11:27:05},
    priority = {2},
    title = {{SPH} Simulation of {2D} Sloshing Flow in a Rectangular Tank},
    year = {2009}
}

@ARTICLE{randles1996,
    AUTHOR="Randles, P.W. and Libersky, L.D.",
    TITLE="Smoothed {P}article {H}ydrodynamics: some recent improvements and applications",
    JOURNAL="Computer methods in applied mechanics and engineering",
    VOLUME=39,
    PAGES="375--408",
    YEAR=1996,
%   NOTE="{ \\ \em ELEC. abstract: The smoothed particle
%hydrodynamics (SPH) computing technique has features which make it
%highly attractive for simulating dynamic response of materials
%involving fracture and fragmentation. However, full exploitation
%of the method's potential has been hampered by some unresolved
%problems including stability and the lack of generalized boundary
%conditions. The authors address these difficulties and propose
%solutions. Continuum damage modeling of fracture is discussed at
%length with scalar and tensor formulations proposed and tested
%within SPH. Several recent applications involving fracture with
%predicted fragment patterns
%and mass distributions are compared with experiment}"
}

@ARTICLE{randles2000,
    AUTHOR="Randles, P.W. and Libersky, L.D.",
    TITLE="Normalized SPH with stress points",
    JOURNAL="International Journal for Numerical Methods in Engineering",
    VOLUME=48,
    NUMBER=10,
    PAGES="1445--1462",
    YEAR=2000,
   NOTE="{ \\ \em 1 COPIA. introduce stress points q
llevan inform s stress y BC. usa otros puntos c inform sobre
speeds. se refieren + a solids y a problemas d fractura en
solidos. plantea cosas muy interesantes sobre BC y vecinos search.
hay q seguir a estos autores xq estn preocupados x aplicaciones
mecnicas y no astrofsicas}"
}

@ARTICLE{reeves1983,
    AUTHOR="Reeves, W.T.",
    TITLE="Particles systems-a technique for modeling a class of fuzzy objects",
    JOURNAL="Computers Graphics",
    VOLUME=17,
    NUMBER=3,
    PAGES="359--376",
    YEAR=1983,
   NOTE="{ \\ \em NO HAY}"
}

@ARTICLE{rhoades1992,
    AUTHOR="Rhoades, C.E. Jr",
    TITLE="A fast algorithm for calculating particle interactions in smooth particle hydrodynamic simulations",
    JOURNAL="Computer-Physics-Communications",
    VOLUME=70,
    NUMBER=3,
    PAGES="478--482",
    YEAR=1992,
   NOTE="{ \\ \em 1 COPIA. Ab: An algorithm is presented
for the rapid calculation of kernel evaluations which occur in
simulations using the smooth particle hydrodynamic (SPH) method.
For a system of N particles, traditional methods require an amount
of work of O(N/sup 2/) to calculate the interaction of each
particle with every other particle, unless sorting or linked-list
schemes are used, in which case the amount of work is reduced to
O(N). The algorithm described has the same amount of work to
evaluate particle interactions as the linked-list method, but
unlike the linked-list scheme it readily vectorizes, making it
considerably more practical for large-scale problems of interest
in climatology, plasma physics, fluid dynamics and celestial
mechanics}"
}

@article{robins_etal_2003,
    author = {Robins, A. and Rountree, J. and Rountree, N.},
    citeulike-article-id = {6645546},
    journal = {Computer Science Education},
    keywords = {programming},
    number = {2},
    pages = {137--172},
    posted-at = {2010-02-09 09:11:35},
    priority = {2},
    title = {Learning and teaching programming: A review and discussion},
    volume = {13},
    year = {2003}
}

@inproceedings{rudman_etal_isope2009,
    author = {Rudman, M. and Prakash, M. and Cleary, P. W.},
    booktitle = {International Offshore and Polar Engineering Conference (ISOPE)},
    citeulike-article-id = {7042406},
    keywords = {lng, sloshing, sph},
    location = {Osaka, Japan},
    month = {June},
    organization = {The International Society of Offshore and Polar Engineers (ISOPE)},
    posted-at = {2010-04-20 11:33:56},
    priority = {2},
    title = {{SPH} Modelling of Liquid Sloshing in an {LNG} Tank},
    year = {2009}
}

@article{santos_guerra_2001,
    author = {Santos-Guerra, M. A.},
    citeulike-article-id = {6650052},
    issn = {1133-2654},
    journal = {Tendencias pedag\'{o}gicas},
    keywords = {assessment},
    number = {6},
    pages = {89--100},
    posted-at = {2010-02-10 13:21:27},
    priority = {2},
    title = {Dime c\'omo eval\'{u}as (en la Universidad) y te dir\'{e} qu\'{e} tipo de profesional (y de persona) eres},
    year = {2001}
}


@inproceedings{schezmarono_etal_jenui2006,
    author = {S\'{a}nchez Maro\~{n}o, N. and Fontenla Romero, O. and Bellas Bouza, F.},
    booktitle = {XII Jornadas de Ense\~{n}anza Universitaria de la Inform\'{a}tica(JENUI)},
    citeulike-article-id = {6609273},
    keywords = {equipo},
    location = {Bilbao},
    organization = {Universidad de Deusto},
    posted-at = {2010-01-31 20:33:35},
    priority = {2},
    title = {{A}portaciones e ideas para el redise\~{n}o de la asignatura de {F}undamentos de {I}nform\'{a}tica al {EEES}},
    year = {2006}
}


@ARTICLE{sauer,
    AUTHOR="Sauer, M., Hiermaier, S. and Scheffer, U.",
    TITLE="Modeling penetration events using FE/MLSPH adaptative coupling",
    JOURNAL="",
    VOLUME=,
    NUMBER=,
    PAGES="",
    YEAR=,
   NOTE="{ \\ \em 1 COPIA. Me lo di dholdman por lo de coupling. Lo hace para slidos y tiene buenos resultados}"
}

@ARTICLE{selhammar1997,
    AUTHOR="Selhammar, M.",
    TITLE="Modified artificial viscosity in smooth particle hydrodynamics",
    JOURNAL="Astronomy-and-Astrophysics",
    VOLUME=325,
    NUMBER=2,
    PAGES="857--865",
    YEAR=1997,
   NOTE="{ \\ \em 1 COPIA}"
}

@ARTICLE{shao,
   AUTHOR="Shao, S.",
   TITLE="SPH simulation of solitary wave interaction with a Curtain-type breakwater",
   JOURNAL="",
   VOLUME=,
   NUMBER=,
   PAGES="",
   YEAR=,
   NOTE="{ \\ \em De Chou, Monash 2004}"
}

@ARTICLE{shen2000,
    AUTHOR="Shen, H.T. and Su, J. and Liu, L.",
    TITLE="SPH simulation of river ice dynamics",
    JOURNAL=JCP,
    VOLUME=165,
    NUMBER=2,
    PAGES="752--770",
    YEAR=2000,
   NOTE="{ \\ \em 1 COPIA + ELEC}"
}

@ARTICLE{sigalotti2003,
    AUTHOR="Sigalotti, L. and Klapp, J. and Sira, E. and Melean, Y. and Hasmy, A.",
    TITLE="SPH Simulations of time-dependent Poiseuille flow at low
    Reynolds numbers",
    JOURNAL=JCP,
    YEAR=2003,
   NOTE="{ \\ \em 1 COPIA + ELEC}"
}

@inproceedings{souto_gonzalez_colagrossi_antuono_spheric10_noslip,
    author = {Souto-Iglesias, A. and Gonz\'{a}lez, L. M. and Colagrossi, A. and Antuono, M.},
    booktitle = {5th ERCOFTAC SPHERIC workshop on SPH applications},
    keywords = {No-slip, boundary conditions, SPH, laminar flows},
    location = {Manchester, UK},
    posted-at = {2010-04-27 00:24:02},
    priority = {2},
    title = {{SPH} no-slip {BC} implementation analysis at the continuous level},
    year = {2010}
}

@article{souto_etal_part0_oe2010,
    author = {Souto-Iglesias, A. and Botia-Vera, E. and Mart\'{\i}n, A. and P\'{e}rez-Arribas, F.},
    citeulike-article-id = {7042580},
    journal = {Ocean Engineering (submitted for publication)},
    keywords = {sloshing},
    posted-at = {2010-04-20 12:18:26},
    priority = {2},
    title = {A set of canonical problems in {S}loshing. {P}art 0: {E}xperimental setup and data processing}
}


@Comment{If you want the url to be shown it has to have a comma at the end}
@electronic{souto_bravo_perezportilla_canton_encuesta0910,
    title = "Encuesta de {L}enguajes de {P}rogramacin {(LP), ETSIN, UPM}",
    author = "Souto-Iglesias, A. and Bravo-Trinidad, J. L. and Prez de la Portilla, M. and Cant\'on, A.",
    url = "http://canal.etsin.upm.es/ftp/encuesta0910.htm",
    year = "2009"
}


@electronic{souto_bravo_gonzalez_canton_guialp0910,
    title = "Lenguajes de {P}rogramacin: {G}ua {ECTS, ETSIN, UPM}",
    author = "Souto-Iglesias, A. and Bravo-Trinidad, J. L. and Gonz\'alez, L.M. and Cant\'on, A.",
    url = "http://canal.etsin.upm.es/ftp/GUIALP0910.pdf",
    year = "2009"
}


@article{souto_bravo_reveduc2008,
    author = {Souto-Iglesias, A. and Bravo-Trinidad, J. L.},
    citeulike-article-id = {6609219},
    issn = {0034-592X},
    journal = {Revista de Educaci\'{o}n},
    keywords = {ects, matlab},
    month = {Mayo},
    number = {346},
    pages = {487--511},
    posted-at = {2010-01-31 19:39:51},
    priority = {0},
    title = {Implementaci\'{o}n {ECTS} en un curso de {P}rogramaci\'{o}n en {I}ngenier\'{\i}a},
    year = {2008}
}

@inproceedings{SOUTO_ETAL_ONR_2008,
    author = {Souto-Iglesias, A. and Idelsohn, S. R. and Mart\'{i}, J. and Zamora-Rodr\'{i}guez, R. and O\~{n}ate, E.},
    booktitle = {27th Symposium on Naval Hydrodynamics, Seoul (Korea)},
    citeulike-article-id = {5726839},
    keywords = {coupling},
    month = {October},
    organization = {Office of Naval Research (USA), National University of Seoul},
    posted-at = {2009-09-05 20:56:31},
    priority = {0},
    title = {Modeling of Free Surface Flows with Elastic Bodies Interactions},
    year = {2008}
}

@article{souto_etal_eif07,
    abstract = {Abstract\&nbsp;\&nbsp;This paper describes the investigations carried out in the towing tank of ETSIN (UPM), where the influence of the distance between catamaran hulls on interference resistance was studied. Resistance, trim and wave cuts were measured for several situations and a device for measuring the wave cuts in different positions between the hulls was built. In order to ascertain the accuracy of the measurements taken, an uncertainty analysis is included. The relation between the interference resistance and the inner wave cuts shapes is analyzed. This analysis provides some insight into the phenomenon but further work is yet to be done.},
    author = {Souto-Iglesias, A. and Zamora-Rodr\'{i}guez, R. and Fern\'{a}ndez-Guti\'{e}rrez, D. and P\'{e}rez-Rojas, L.},
    citeulike-article-id = {5954854},
    citeulike-linkout-0 = {http://dx.doi.org/10.1007/s00348-006-0244-4},
    doi = {10.1007/s00348-006-0244-4},
    journal = {Experiments in Fluids},
    keywords = {file-import-09-10-16},
    month = {February},
    number = {2},
    pages = {321--332},
    posted-at = {2009-10-16 21:53:01},
    priority = {2},
    title = {Analysis of the wave system of a catamaran for {CFD} validation},
    url = {http://dx.doi.org/10.1007/s00348-006-0244-4},
    volume = {42},
    year = {2007}
}

@article{souto2004,
    author={A. Souto-Iglesias and L. P\'erez-Rojas and R. Zamora-Rodr\'{\i}guez},
    year={2004},
    month={6},
    title={Simulation of anti-roll tanks and sloshing type problems with {S}moothed {P}article {H}ydrodynamics},
    journal={Ocean Engineering},
    volume={31},
    number={8-9},
    pages={1169-1192},
    abstract={We describe the work performed in the numerical simulation of passive roll-damper tanks for fishing vessels. The fluid in the tank behaves as a resonant fluid system, and this resonant behavior justifies their usage as counter-moment generators for sea waves. Although the experimental data come from the naval field, the techniques may be applied to design other tuned liquid damper and tuned sloshing damper devices. The differences with respect to other techniques arise from using the smoothed particle hydrodynamics (SPH) method to perform simulations. With SPH, it is feasible to model large free surface deformations and wave breaking. The results of the simulations have been validated with experimental tests corresponding to real configurations. Against experimental data, we compare pure quantitative physical magnitudes as moment phase lags with respect to tank movement and more qualitative ones as free surface shapes. Although large amplitude waves and breaking waves appear, they are well
reproduced and the numerical values of phase lags accord to the experiments. To summarize, the results are promising but further work has yet to be done.},
    keywords={SPH; Resonance; Free surface flows; Sloshing; Tuned liquid damper; Particle method}
}
}

@article{souto2006,
    author={A. Souto-Iglesias and L. Delorme and L. P\'erez-Rojas and S. Abril-P\'erez},
    year={2006},
    month={8},
    title={Liquid moment amplitude assessment in sloshing type problems with smooth particle hydrodynamics},
    journal={Ocean Engineering},
    volume={33},
    number={11-12},
    pages={1462-1484},
    abstract={Sloshing moment amplitudes in a rectangular tank for a wide range of rolling frequencies are investigated both experimentally and numerically. In a previous paper, Souto et al. [2004. Simulation of anti-roll tanks and sloshing type problems with smoothed particle hydrodynamics. Ocean Eng. 31 (8–9), 1169–1192] numerical results obtained with a 3-D Smooth Particle Hydrodynamics (SPH) formulation were presented. These only corresponded to the phase lag between the tank motion and the liquid response moment. This paper is aimed at improving those results by obtaining accurate values for the moment amplitudes. We present the corrections with respect to the aforementioned implementation that focus on the time integration scheme and on the treatment of the boundary conditions. In addition better quality experimental results are presented.},
    keywords={SPH; Free-surface flows; Sloshing; Tuned liquid damper; TLD; TSD; Particle method; Phase diagram; Roll}
}
}

@ARTICLE{springel2000,
    AUTHOR="Springel, V. and Yoshida, N. and White, S.D.M.",
    TITLE="GADGET: A code for collisionless and gasdynamical cosmological simulations",
    JOURNAL="arXiv:astro-ph/mar",
    YEAR=2000,
   NOTE="{ \\ \em 2 COPIAS. explica aspectos interesantes
de time integration cuando se usan deltas tes diferentes para las
partculas. la densidad la calcula a travs del kernel}"
}

@ARTICLE{steinmetz1996,
    AUTHOR="Steinmetz, M.",
    TITLE="GRAPESPH: cosmological smoothed particle hydrodynamics
    simulations with the special-purpose hardware GRAPE",
    JOURNAL="MNRAS",
    VOLUME=278,
    PAGES="1005--1017",
    YEAR=1996,
   NOTE="{ \\ \em 1 COPIA. lo he visto, pero no entiendo nada}"
}

@techreport{stern_muste_etal_99,
    author={F. Stern and M. Muste and M. L. Beninanti and W. E. Eichinger},
    year={1999},
    title={Summary of Experimental Uncertainty Assessment Methodology With Example},
    institution={IIHR-Hydroscience and Engineering, The University of Iowa},
    number={IIHR No. 406}
}

@INPROCEEDINGS{sueyoshi2003,
    AUTHOR="Sueyoshi, M. and Naito, S.",
    TITLE="A numerical study of violent free surface problems with
    particle method for marine engineering",
    BOOKTITLE="8th International Conference on Numerical Ship
    Hydrodynamics,Buscan(Korea)",
    PAGES="330--339",
    MONTH="Sept.",
    YEAR=2003,
   NOTE="{ \\ \em 2 COPIAS + ELEC. SON LOS VIDEOS TAN BONITOS DE BARCOS 2D CON AVERA. PERO POCO MAS SOBRE COMO LO HACE}"
}

@ARTICLE{Strubelj2011,
    AUTHOR="Strubelj, L. and Tiselj, I.",
    TITLE="Two-fluid model with interface sharpening",
    JOURNAL="Int. J. Numer. Meth. Engng",
    VOLUME=85,
    PAGES="575--590",
    YEAR=2011,
}


@ARTICLE{sulsky1991,
    AUTHOR="Sulsky, D. and Brackwill, J.U.",
    TITLE="A Numerical Method for Suspension Flow",
    JOURNAL=JCP,
    VOLUME=96,
    PAGES="339--368",
    YEAR=1991,
   NOTE="{ \\ \em 1 COPIA. dentro de un fluido continuo
resuelto por FEM, plantea partculas o solidos en suspension cuya
evolucin acoplada con el modelo continuo plantea de un modo
similar a SPH. Citado por {mon1995e} BC con ghost particles}"
}

@Comment{3 COPIAS}
@ARTICLE{sun1994,
   AUTHOR="Sun, L. M. and Fujino, Y.",
   TITLE="A Semi-Analytical Model for Tuned Liquid Damper (TLD) with Wave
    Breaking",
   JOURNAL="Journal of Fluids and Structures",
   VOLUME=8,
   NUMBER=5,
   PAGES="471--488",
   MONTH="Jul.",
   YEAR=1994,
}

@article{Takeda:94,
    author = {Takeda, H.  and Miyama, S. M.  and Sekiya, M. },
    citeulike-article-id = {1951455},
    journal = {Progress of Theoretical Physics},
    keywords = {SPH},
    number = {5},
    pages = {939--960},
    priority = {2},
    title = {Numerical Simulation of Viscous Flow by {S}moothed {P}article {H}ydrodynamics},
    volume = {92},
    year = {1994}
   NOTE="{ \\ \em 2 COPIAS. Calcula de modo num\'erico
con SPH las derivadas segundas que aparecen en los t\'erminos
viscosos, y comprueba con un Pouseuille flow y con un cilindro.
Tambi\'en habla de ghost particles con kernel Gaussiano. Dice
c\'omo hacer para la velocidad con las BC, y no s\'olo la
densidad. Podra ser un ejercicio inici\'atico interesante su
programaci\'on. Es un paper muy citado y de los b\'asicos. Hay
copia}"
}


@ARTICLE{terezi2004,
    AUTHOR="Teresi, V. and Molteni, D. and Toscano, E.",
    TITLE="SPH simulations of Shakura-Sunyaev instability at intermediate accretion rates",
    JOURNAL="Monthly Notices of the Royal Astronomical Society",
    VOLUME={348 (1)},
    PAGES={361-367},
    YEAR={2004}
}

@book{TORO:1997,
    author = {Toro, E. F. },
    citeulike-article-id = {1951468},
    keywords = {SPH},
    posted-at = {2007-11-21 13:15:42},
    priority = {2},
    publisher = {Springer, Berlin.},
    title = {Riemann solvers and numerical methods for fluid dynamics.},
    year = {1997}
}

@ARTICLE{turner1995,
    AUTHOR="Turner, J.A. and Bhattal, A.S. and Chapman, S.J. and Disney, M.J. and
    Pongracic, H. and Whitworth, A.P.",
    TITLE="Binary star formation: gravitational fragmentation followed by
    capture",
    JOURNAL="MNRAS",
    VOLUME=277,
    PAGES="105",
    YEAR=1995,
   NOTE="{ \\ \em 1 COPIA. Citado por Watkins. Sobre
viscosidad SPH. tests de viscosidad SPH con la formulacin
original antishock de monaghan. Pedido 041102 recibido 191102
Tienen una direcci\'on web con papers completos sobre su trabajo.
\\ http://carina.astro.cf.ac.uk/groups/starform Tienen animaciones.
De hecho, deberia poner enlaces a las animaciones en mis
pr\'oximos papers. Tiene un algoritmo de relajaci\'on inicial
(pag. 718) que podemos valorar aplicar a nuestras relajaciones. En
time integration usa un leap-frog hybrido con un
predictor-corrector. Es slo de primer orden pero dice q es muy
estable. Sirve para pasos de tiempo ajustables}"
}

@inproceedings{tveitnes_etal_2004,
    author={T. Tveitnes and T. K. Ostvold and L. W. Pastoor and H. O. Sele},
    year={2004},
    title={A Sloshing Design Load Procedure for Membrane LNG Tankers.},
    booktitle={Proc. 9th Symp. on Practical Design of Ships and Other Floating Structures},
    address={Luebeck, Travemuende, Germany},
    pages={123-131}
}
}

@ARTICLE{vila1999,
    AUTHOR="Vila, J.P.",
    TITLE="On particle weighted methods and {S}mooth {P}article
    {H}ydrodynamics",
    JOURNAL="Mathematical Models \& Methods in Applied Sciences",
    VOLUME=9,
    NUMBER=2,
    PAGES="161--209",
    YEAR=1999,
%   NOTE="{ \\ \em 1 COPIA. estudio super te\'orico, pero q
%parece muy interesante para las BC a base de ghost particles,
%boundary particles, etc. CITADO POR COLAGROSSI CON MOUSSA POR LO DE ESTUDIO DE CONVERGENCIA...}"
}

@INPROCEEDINGS{violeau2001,
    AUTHOR="Violeau, D. and Piccon, S. and Chabard, J.P.",
    TITLE="Two attempts of turbulence modelling in smoothed particle hydrodynamics",
    BOOKTITLE="FMTM",
    YEAR="2001",
   NOTE="{ \\ \em 1 COPIA + ELEC. Prueba dos modelos de
viscosidad turbulenta con SPH y da resultados interesantes de
flujo de Poiseuille}"
}

@ARTICLE{violeau2006,
    AUTHOR="Violeau, D. and Issa, R.",
    TITLE="Numerical modelling of complex turbulent free
    surface flows with the SPH Lagrangian method: an overview",
    JOURNAL="Int. J. Num. Meth. Fluids",
    VOLUME={53(2)},
    PAGES="277--304",
    YEAR={2006},
}

@article{Watkins:96,
    author = {Watkins, S. J.  and Bhattal, A. S.  and Francis, N.  and Turner, J. A.  and Whitworth, A. P. },
    citeulike-article-id = {1951488},
    journal = {Astronomy and Astrophysics Supplement Series},
    keywords = {SPH},
    pages = {177--187},
    priority = {2},
    title = {A new prescription for viscosity in Smoothed Particle Hydrodynamics},
    volume = {119},
    year = {1996}
%   NOTE="{ \\ \em 1 COPIA. recibido de victor 101002
%plantea una forma nueva y ms completa de calcular los trminos
%viscosos en la ecuacin del momento. da expresiones para
%rotacionales y diferentes operadores vectoriales actuando sobre el
%campo de velocidades. da una serie de tests para verificar esos
%clculos, pero no acabo de entenderlos. el de la corriente de
%poiseuille es 2D. Tambien da una formulacin para h variable en
%funcin del nmero de vecinos de clculo q queramos q tenga cada
%partcula}"
}

@ARTICLE{whitworth1995,
    AUTHOR="Whiworth, A.P. and  Bhattal, A.S. and Turner, J.A. and Watkins, S.J.",
    TITLE="Estimating density in smoothed particle hydrodynamics",
    JOURNAL="Astronomy and Astrophisics",
    YEAR=1995,
   NOTE="{ \\ \em 1 COPIA. recibido de victor 101002
trata sobre un detalle en el calculo de la densidad q no nos
interesa. este detalle podra ser importante en n variables}"
}

@ARTICLE{wingate1998,
    AUTHOR="Wingate, C.A. and Dilts, G.A. and Mandell, D.A. and Crotzer, L.A. and Knapp,
    C.E",
    TITLE="Progress in smooth particle hydrodynamics",
    JOURNAL="NASA-no",
    YEAR=1998,
   NOTE="{ \\ \em NO HAY}"
}


@ARTICLE{youngyoon1999,
    AUTHOR="Young-Yoon, H. and Koshizuka, S. and Oka, Y.",
    TITLE="A particle-gridless hybrid method for incompressible flows",
    JOURNAL="International Journal for Numerical Methods in Fluids",
    VOLUME=30,
    NUMBER=4,
    PAGES="407--424",
    YEAR=1999,
%   NOTE="{ \\ \em 1 COPIA}"
}

@ARTICLE{youngyoon1999b,
    AUTHOR="Young-Yoon, Han and Koshizuka, S. and Oka, Y.",
    TITLE="A mesh-free numerical method for direct simulation of gas-liquid phase interface",
    JOURNAL="Nuclear-Science-and-Engineering",
    VOLUME=133,
    NUMBER=2,
    PAGES="192--200",
    YEAR=1999,
%   NOTE="{ \\ \em 1 COPIA + ELEC. Habla del mtodo
%de particulas de esta gente, que resuelve un poisson en la presin
%en cada paso. tiene otra formulacin del kernel, pero lo ms
%importante es que considera flujos entrantes y salientes, con un
%esquema hbrido euleriano-particulas que no s\'e
%muy bien como funciona}"
}

@ARTICLE{zhang2004,
    AUTHOR="Zhang, G.M. and Batra, R.C.",
    TITLE="Modified smoothed particle hydrodynamics method and its application to transient prolems",
    JOURNAL="Computational Mechanics",
    VOLUME=34,
    PAGES="137--146",
    YEAR=2004,
   NOTE="{ \\ \em 1 COPIA + ELEC. Me lo pas la McCue porque
el Batra est en Virginia Tech. La idea es de desarrollar en
series de Taylor un funcin f, multiplicar por el kernel, su
gradiente o su gradiente segundo. De ah sale un sistema de ec.
por f y sus derivadas (10 por 10 en 3D) que se resuelve por
cada partcula}"
}

@ARTICLE{zhang2007,
    AUTHOR="Zhang, G.M. and Batra, R.C.",
    TITLE="Wave Propagation in Functionally Graded Materials by Modified Smoothed Particle Hydrodynamics (MSPH) Method",
    JOURNAL="J. Comp. Physics, available online",
    VOLUME=,
    PAGES=,
    YEAR={2007},
}





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%                                      SLOSHING
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@PHDTHESIS{abad,
   AUTHOR="R. Abad",
   TITLE="Estudio de los movimientos del buque y su
    amortiguacin por estabilizadores pasivos",
   SCHOOL="E.T.S.I.N., UPMadrid",
   YEAR= 1998,
   NOTE="{El ao no ser este !!!}"
}

@ARTICLE{adabala2002,
   AUTHOR="N. Adabala and S. Manohar",
   TITLE="Techniques for visualization of fluids: A survey",
   JOURNAL="Computer Graphics",
   VOLUME=21,
   NUMBER=1,
   PAGES="65--81",
   YEAR=2002,
   NOTE=""
}

@ARTICLE{anderson200a,
   AUTHOR="J.G. Anderson and S.E. Semercigil and O.F. Turan",
   TITLE="A standing-wave-type sloshing absorber to control transient oscillations",
   JOURNAL="Journal of Sound and Vibration",
   VOLUME=232,
   NUMBER=5,
   PAGES="839--56",
   YEAR=2000,
   NOTE="{ \\ \em 2 COPIAS}"
}

@ARTICLE{anderson2000b,
   AUTHOR="J.G. Anderson and O.F. Turan and S.E Semergil",
   TITLE="Experiments to control sloshing in cylindrical containers",
   JOURNAL="Journal of Sound and Vibrations",
   VOLUME=240,
   NUMBER=2,
   PAGES="398--404",
   YEAR=2000,
   NOTE="{ \\ \em 1 COPIA}"
}

@ARTICLE{armenio1996a,
   AUTHOR="V. Armenio and M. La Rocca",
   TITLE="On the analysis of sloshing of water in rectangular containers:
    numerical study and experimental validation",
   JOURNAL="Journal of Ocean Engineering",
   VOLUME=23,
   NUMBER=8,
   PAGES="705--39",
   YEAR=1996,
   NOTE="{ \\ \em NO HAY}"
}

@ARTICLE{armenio1996b,
   AUTHOR="V. Armenio and A. Francescutto and La Rocca, M.",
   TITLE="On the roll motion of a ship partially filled unbaffled and
    baffled tanks - Part I: Mathematical model and experimental
    setup",
   JOURNAL="Int. Journ. of Offshore and Polar Eng.",
   VOLUME=6,
   NUMBER=4,
   YEAR=1996,
   NOTE="{ \\ \em 1 COPIA}"
}

@ARTICLE{armenio1996c,
   AUTHOR="Armenio, V. and Francescutto, A. and La Rocca, M.",
   TITLE="On the roll motion of a ship partially filled unbaffled and
    baffled tanks - Part II: Numerical and experimental analysis",
   JOURNAL="Int. Journ. of Offshore and Polar Eng.",
   VOLUME=6,
   NUMBER=4,
   YEAR=1996,
   NOTE="{ \\ \em 1 COPIA}"
}

@ARTICLE{armenio1997,
   AUTHOR="Armenio, V.",
   TITLE="An improved mac method (SIMAC) for unsteady high-Reynolds free surface flows",
   JOURNAL="International Journal for Numerical methods in fluids",
   VOLUME=24,
   PAGES="185--214",
   YEAR=1997,
   NOTE="{ \\ \em 1 COPIA}"
}

@ARTICLE{arnold1955,
   AUTHOR="Arnold, F.R.",
   TITLE="Steady-state behavior of systems provided with nonlinear dynamic vibration absorbers",
   JOURNAL="Journal of Applied Mechanics",
   PAGES="487--92",
   YEAR=1955,
   NOTE="{ \\ \em 2 COPIAS}"
}

@article{bass1985,
    author={R. L. Bass and E. B. Bowles Jr and R. W. Trudell and J. Navickas and J. C. Peck and N. Yoshimura and S. Endo and B. F. M. Pots},
    year={1985},
    title={Modeling Criteria for Scaled LNG Sloshing Experiments},
    journal={Journal of Fluids Engineering, Transactions of the ASME},
    volume={107},
    number={2},
    pages={272-280},
    abstract={This paper presents an overview of the current state-of-the-art in scale modeling of liquefied natural gas sloshing in ship tanks. The numerous potentially significant scaling parameters are discussed in detail and laboratory test data illustrating the effects of the important scaling parameters are presented. In view of current knowledge, an indication of appropriate scale criteria is presented and recommendations for additional research efforts are outlined.},
    keywords={NATURAL GAS, LIQUEFIED -- Testing; MODELS; HYDRODYNAMICS - Fluid Structure Interaction; TANKERS},
    isbn={0098-2202}
}
}

@ARTICLE{bass1997a,
   AUTHOR="Bass, D.W.",
   TITLE="Free surface Roll tanks on small boats in
    extreme condition",
   JOURNAL="Oceanic Engineering International",
   VOLUME=1,
   NUMBER=2,
   YEAR=1997,
   NOTE="{ \\ \em NO HAY}"
}

@ARTICLE{bass1997b,
   AUTHOR="Bass, D.W. and Friis, D.",
   TITLE="Roll reduction for Small Fishing Boats",
   JOURNAL="Oceanic Engineering International",
   VOLUME=1,
   NUMBER=1,
   YEAR=1997,
   NOTE="{ \\ \em NO HAY}"
}

@ARTICLE{bass1998,
   AUTHOR="Bass, D.W.",
   TITLE="Roll stabilization for small fishing vessels using paravanes and anti-roll tanks",
   JOURNAL="Marine Technology",
   VOLUME=35,
   NUMBER=2,
   PAGES="74--84",
   YEAR=1998,
   NOTE="{ \\ \em 2 COPIAS}"
}

@ARTICLE{bass,
   AUTHOR="Bass, D.W.",
   TITLE="On the response of biased ships in large amplitude waves",
   JOURNAL="?",
   VOLUME=?,
   YEAR= ?,
   NOTE="{ \\ \em 1 COPIA}"
}

@BOOK{bhattacharyya1978,
   AUTHOR="Bhattacharyya, R.",
   TITLE="Dynamics of Marine Vehicles",
   PUBLISHER="John Wiley \& Sons",
   YEAR=1978,
   NOTE="{ \\ \em NO HAY.}"
}

@ARTICLE{cariou1999,
   AUTHOR="Cariou, A. and Casella, G.",
   TITLE="Liquid sloshing in ship tanks: a comparative study of numerical simulation",
   JOURNAL="Marine structures",
   VOLUME=12,
   PAGES="183--88",
   YEAR=1999,
   NOTE="{ \\ \em 1 COPIA + ELEC. esta bien para el articulo sobre flow3d}"
}

@ARTICLE{caughey1954,
   AUTHOR="Caughey, T.K.",
   TITLE="The existence and stability of ultraharmonics and subarmonics in forced
    nonlinear oscillations",
   JOURNAL="Journal of Applied Mechanics",
   PAGES="327--355",
   YEAR=1954,
   NOTE="{ \\ \em 1 COPIA}"
}



@ARTICLE{chern1999,
   AUTHOR="Chern, M.J. and Borthwick, A.G.L. and Eatock Taylor, R.",
   TITLE="A pseudoespectral transformation of 2-D nonlinear waves",
   JOURNAL="Journal of Fluids and Structures",
   VOLUME=13,
   NUMBER=5,
   PAGES="607--630",
   YEAR=1999,
   NOTE="{ \\ \em 3 COPIAS}"
}

@ARTICLE{faltinsen1974,
   AUTHOR="Faltinsen, O.D.",
   TITLE="A nonlinear theory of sloshing in rectangular tank",
   JOURNAL="Jour. of Ship Research",
   VOLUME=18,
   NUMBER=4,
   PAGES="224--241",
   YEAR=1974,
   NOTE="{ \\ \em 1 COPIA}"
}

@ARTICLE{faltinsen2000,
   AUTHOR="Faltinsen, O.D. and Timokha, A.N.",
   TITLE="Asymptotic modal approximation of nonlinear resonant sloshing
    in a rectangular tank with small fluid depth",
   JOURNAL="J. Fluid Mech.",
   VOLUME=470,
   PAGES="319--357",
   YEAR=2000,
   NOTE="{ \\ \em 1 COPIA}"
}


@inproceedings{gaillarde_etal_2004,
    author = {Gaillarde, G. and Ledoux, A. and Lynch, M.},
    booktitle = {Design and operation of gas carriers},
    citeulike-article-id = {6598255},
    keywords = {coupling, sloshing},
    organization = {Royal Institution of Naval Architects},
    posted-at = {2010-01-28 09:36:46},
    priority = {2},
    title = {Coupling between liquefied gas and vessel's motion for partially filled tanks: Effect on seakeeping},
    year = {2004}
    NOTE="{ \\ \em 1 COPIA. Lo envio sebas.}"
}

@ARTICLE{goodrich1968,
   AUTHOR="Goodrich, G.J.",
   TITLE="Development and design of passive roll stabilisers",
   JOURNAL="Transactions of the Royal Institution of Naval Architects, London",
   MONTH="March",
   YEAR=1968,
   NOTE="{ \\ \em 1 COPIA}"
}

@ARTICLE{goudey1989,
   AUTHOR="Goudey, C.A. and Venugopal, M.",
   TITLE="Roll Damping on Two New England Trawlers: an Experimental Study",
   JOURNAL="Marine Technology",
   VOLUME=26,
   NUMBER=2,
   YEAR=1989,
   NOTE="{ \\ \em 1 COPIA}"
}

@ARTICLE{graham1952,
   AUTHOR="Graham, E.W. and Rodriguez, A.M.",
   TITLE="The characteristics of fuel motion which affects airplane dynamics",
   JOURNAL="J. Applied Mechanics",
   VOLUME=19,
   PAGES="381--388",
   YEAR=1952,
   NOTE="{ Viene la teora lineal de sloshing}"
}

@INPROCEEDINGS{helmore,
   AUTHOR="Helmore, P.J.",
   TITLE="Recent development in roll stabilisation of fishing vessels",
   BOOKTITLE="7th Intern. Conf. on Stability of Ships and Ocean Vehicles",
   YEAR=?,
   NOTE="{ \\ \em 2 COPIAS}"
}

@ARTICLE{ibrahim1999,
   AUTHOR="Ibrahim, R. A. and El Sayad, M. A.",
   TITLE="Simultaneous parametric and internal resonances in systems
    involving strong non-linearities",
   JOURNAL="Journal of Sound and Vibration",
   VOLUME=225,
   NUMBER=5,
   PAGES="857-885",
   MONTH="Sept.",
   YEAR=1999,
   NOTE="{ \\ \em 1 COPIA}"
}

@ARTICLE{ikeda1997,
   AUTHOR="Ikeda, T. and Nakagawa, N.",
   TITLE="Non-linear vibrations of a structure caused by water sloshing in a rectangular tank",
   JOURNAL="Journal of Sound and Vibration",
   VOLUME=201,
   NUMBER=1,
   PAGES="23--41",
   MONTH="March",
   YEAR=1997,
   NOTE="{ \\ \em 1 COPIA. Tambin trata de SPH}"
}

@ARTICLE{iwan1969,
   AUTHOR="Iwan, D.W.",
   TITLE="Application of an equivalent nonlinear system approach to
    dissipative dynamical systems",
   JOURNAL="Journal of Applied Mechanics",
   PAGES="412--416",
   MONTH="Sept.",
   YEAR=1969,
   NOTE="{ \\ \em 2 COPIAS}"
}

@article{Kim20072176,
title = "Study on coupling effects of ship motion and sloshing",
journal = "Ocean Engineering",
volume = "34",
number = "16",
pages = "2176 - 2187",
year = "2007",
note = "",
issn = "0029-8018",
doi = "DOI: 10.1016/j.oceaneng.2007.03.008",
author = "Y. Kim and B.W. Nam and D.W. Kim and Y.S. Kim",
keywords = "Sloshing",
keywords = "Ship motion",
keywords = "Coupled analysis",
keywords = "Impulse-response-function method",
keywords = "Finite-difference method",
abstract = "
This study considers the coupling effects of ship motion and sloshing. The linear ship motion is solved using an impulse-response-function (IRF) method, while the nonlinear sloshing flow is simulated using a finite-difference method. The IRF method requires the frequency-domain solution prior to conversion to time domain, but the computational effort is much less than that of direct time-domain approaches. The developed scheme is verified by comparing the motion RAOs between the frequency-domain solution and the solution obtained by the IRF method. Furthermore, a soft-spring concept and linear roll damping are implemented to predict more realistic motions of surge, sway, yaw, and roll. For the simulation of sloshing flow in liquid tanks, a physics-based numerical approach adopted by Kim [2001. Numerical simulation of sloshing flows with impact load. Applied Ocean Research 23, 53-62] and Kim et al. [2004. Numerical study on slosh-induced impact pressures on three-dimensional prismatic tanks. Applied Ocean
Research 26, 213-226] is applied. In particular, the present method focuses on the simulation of the global motion of sloshing flow, ignoring some local phenomena. The sloshing-induced forces and moments are added to wave-excitation forces and moments, and then the corresponding body motion is obtained. The developed schemes are applied for two problems: the sway motion of a box-type barge with rectangular tanks and the roll motion of a modified S175 hull with rectangular anti-rolling tank. Motion RAOs are compared with existing results, showing fair agreement. It is found that the nonlinearity of sloshing flow is very important in coupling analysis. Due to the nonlinearity of sloshing flow, ship motion shows a strong sensitivity to wave slope."
url = "http://www.sciencedirect.com/science/article/B6V4F-4NKJ0PR-1/2/94d69db72a2ccfd7ca0c45c2532757d5",
}

@INPROCEEDINGS{krzemien2001,
   AUTHOR="Krzemien-Ojak, P. and konieczny, L. and Michniewicz, H.",
   TITLE="Comparison of ship tank structure response to sloshing determined
    experimentally and using MSC/DYTRAN computer code",
   BOOKTITLE="Fourth International Conference on Marine Technology, Sczcecin, Poland",
   MONTH="June",
   YEAR=2001,
   NOTE="{ \\ \em 1 COPIA. Artculo del polaco sobre
sloshing del tanque del tanker q tenemos en la web}"
}

@ARTICLE{larocca2000,
   AUTHOR="La Rocca, M. and Sciortino, G. and Boniforti, M.A.",
   TITLE="A fully nonlinear model for sloshing in a rotating container",
   JOURNAL="Fluid Dynamics Research",
   VOLUME=27,
   NUMBER=1,
   PAGES="23--52",
   MONTH="July",
   YEAR=2000,
   NOTE="{ \\ \em 1 COPIA}"
}


@ARTICLE{lee1999,
    AUTHOR = "Lee, D.Y., Choi, H.S.",
    TITLE = "Study on sloshing in cargo tanks including hydroelastic effects",
    JOURNAL = "Journal of Marine Science and Technology",
    VOLUME = "4",
    PAGES = "27--34",
    YEAR = "1999"
    NOTE="{}"
}


@ARTICLE{lee_col,
   AUTHOR="Lee, Y-B., Kim, Y., Kim, Y.-S. and Shin, Y.-S.",
   TITLE="Parametric study on slosh-induced impact pressure: Experiment vs. numerical computation",
   JOURNAL="",
   VOLUME=,
   NUMBER=,
   PAGES="",
   YEAR=,
   NOTE="{ \\ \em 1 COPIA. NOS LO DI COLAGROSSI PARA ENSAYOS DE TANQUES}"
}


@article{RefWorks:542,
    author={E. -S Lee and C. Moulinec and R. Xu and D. Violeau and D. Laurence and P. Stansby},
    year={2008},
    month={9/10},
    title={Comparisons of weakly compressible and truly incompressible algorithms for the SPH mesh free particle method},
    journal={Journal of Computational Physics},
    volume={227},
    number={18},
    pages={8417-8436},
    keywords={SPH; Incompressible flows; Pressure Poisson equation; Lagrangian modelling}
}

@ARTICLE{lee1996,
   AUTHOR="Lee, B.S. and Vassalos, D.",
   TITLE="An investigation into the stabilisation effects of anti-roll tanks with flow obstructions",
   JOURNAL="Int. Shipbuild. Progr.",
   VOLUME=43,
   NUMBER=443,
   PAGES="70--88",
   YEAR=1996,
   NOTE="{ \\ \em 2 COPIAS}"
}



@ARTICLE{lewison,
   AUTHOR="Lewison, G.R.G.",
   TITLE="Optimum design of passive roll stabiliser tanks",
   JOURNAL="?",
   YEAR=?,
   NOTE="{ \\ \em 2 COPIAS}"
}

@ARTICLE{liu1994,
   AUTHOR="Liu, Z. and Huang, Y.",
   TITLE="A new method for large amplitude sloshing problems",
   JOURNAL="Journal of Sound and Vibration",
   VOLUME=175,
   NUMBER=2,
   PAGES="185--195",
   YEAR=1994,
   NOTE="{ \\ \em 2 COPIAS}"
}

@ARTICLE{liut2001,
   AUTHOR="Liut, D.A. and Hugues, O.F. and Mook, D.T.",
   TITLE="Control of Rolling in Ships by Means of Active Fins Governed
    by a Fuzzy-Logic Controller",
   JOURNAL="Journal of Ship Research",
   VOLUME=45,
   NUMBER=4,
   PAGES="279--288",
   YEAR=2001,
   NOTE="{ \\ \em 1 COPIA}"
}

@INPROCEEDINGS{manrique2004,
    AUTHOR="Manrique Braojos, J. and Casas Alcaide, P.A.",
    TITLE="Estabilizacin transversal en buques de guerra",
    BOOKTITLE="SSTT 2004",
    MONTH="Feb.",
    YEAR=2004,
   NOTE="{ \\ \em 1 COPIA. Ingeniera pure. son aproximaciones}"
}

@TECHREPORT{maron1997,
   AUTHOR="Maron Loureiro, A. and Riola Rodriguez, J.M.",
   TITLE="Ensayos de inundacin del garaje en ferries con avera en el costado",
   INSTITUTION="Canal de experiencias hidrodinmicas, El Pardo",
   YEAR=1997,
   NOTE="{ \\ \em Me lo di Chou para ver cosas de avera. de momento est con lo de tanques}"
}

@ARTICLE{martin1994,
   AUTHOR="Martin, J.P.",
   TITLE="Roll Stabilisation of Small Ships",
   JOURNAL="Marine Technology",
   VOLUME=31,
   NUMBER=4,
   MONTH="October",
   YEAR=1994,
   NOTE="{ \\ \em 2 COPIAS}"
}

@ARTICLE{masri1966,
   AUTHOR="Masri, S.F. and Caughey, T.K.",
   TITLE="On the stability of the impact damper",
   JOURNAL="Journal of Applied Mechanics",
   PAGES="586--592",
   MONTH="Sept.",
   YEAR=1966,
   NOTE="{ \\ \em 1 COPIA}"
}

@ARTICLE{masri1968,
   AUTHOR="Masri, S.F.",
   TITLE="Analytical and experimental studies of multiple-unit impact dampers",
   JOURNAL="Journal of the Acoustical Society of America",
   VOLUME=45,
   NUMBER=5,
   PAGES="1111--1117",
   YEAR=1968,
   NOTE="{ \\ \em 1 COPIA}"
}

@ARTICLE{masri1972,
   AUTHOR="Masri, S.F.",
   TITLE="Theory of the dynamic vibration neutralizer with motion-limiting stops",
   JOURNAL="Journal of Applide Mechanics",
   PAGES="563--568",
   MONTH="June",
   YEAR=1972,
   NOTE="{ \\ \em 1 COPIA}"
}

@ARTICLE{modi1997,
   AUTHOR="Modi, V.J. and Seto, M.L.",
   TITLE="Suppression of flow-induced oscillations using sloshing liquid dampers:
    analysis and experiments",
   JOURNAL="Journal of Wind Engineering and Industrial Aerodynamics",
   VOLUME=67,
   NUMBER="1-3",
   PAGES="611--626",
   YEAR=1997,
   NOTE="{ \\ \em 1 COPIA}"
}

@ARTICLE{modi1998,
   AUTHOR="Modi, V.J. and Munshi, S.R.",
   TITLE="An efficient liquid sloshing damper for vibration control",
   JOURNAL="Journal of Fluids and Structures",
   VOLUME=12,
   NUMBER=8,
   PAGES="1055--1071",
   YEAR=1998,
   NOTE="{ \\ \em 2 COPIAS}"
}

@INPROCEEDINGS{nishimoto2001,
   AUTHOR="Nishimoto, K. and Fucatu, C.H. and Cueva, D.R. and Videiro, P.M. and Matos, V. and Cueva, M.S.",
   TITLE="A Study of Motion Minimization Devices of FPDSOs",
   BOOKTITLE="OMAE01",
   MONTH="June",
   YEAR=2001,
   NOTE="{ \\ \em 1 COPIA}"
}

@ARTICLE{pawlowski1991,
   AUTHOR="Pawlowski, J.S. and Bass, D.W.",
   TITLE="A Theorical and Numerical Model of Ship Motions in Heavy Seas",
   JOURNAL="SNAME Transactions",
   VOLUME=99,
   PAGES="319--352",
   YEAR=1991,
   NOTE="{ \\ \em 1 COPIA}"
}

@ARTICLE{pilipchuk1997,
   AUTHOR="Pilipchuk, V. N. and Ibrahim, R. A.",
   TITLE="The Dynamics of a Non-linear System Simulatin Liquid Sloshing Impact in Moving
    Structures",
   JOURNAL="Journal of Sound and Vibration",
   VOLUME=205,
   NUMBER=5,
   PAGES="593--615",
   YEAR=1997,
   NOTE="{ \\ \em 1 COPIA}"
}

@ARTICLE{pipes1953,
   AUTHOR="Pipes, L.A.",
   TITLE="Analysis of a nonlinear dynamic vibration absorber",
   JOURNAL="Journal of Applied Mechanics",
   PAGES="515--518",
   MONTH="Dec.",
   YEAR=1953,
   NOTE="{ \\ \em 1 COPIA}"
}

@ARTICLE{popov1993,
   AUTHOR="Popov, G. and Sankar, S. and Sankar, T.S.",
   TITLE="Dynamics of Liquid Sloshing in Baffled and Compartmented Road Containers",
   JOURNAL="Journal of Fluids and Structures",
   VOLUME=7,
   NUMBER=7,
   PAGES="803--821",
   YEAR=1993,
   NOTE="{ \\ \em NO HAY."}
}

@ARTICLE{sames1998,
   AUTHOR="Sames, P and Schellin, T.",
   TITLE="Discussion of article from Schumann ",
   JOURNAL="Ship Technology Res",
   VOLUME=45,
   NUMBER=2,
   PAGES="46",
   MONTH="May",
   YEAR=1998,
   NOTE="{ \\ \em MEDIA COPIA. comentario a schumann,
donde le dicen q hacen falta resultados experimentales y hacer las
cosas con ms grados de pitching. esta con el de schumann, x ser solo una hoja}"
}

@ARTICLE{sames1999,
   AUTHOR="Sames , P. and Schellin, T. and Muzaferija, S.",
   TITLE="Application of a two-fluid finite volume method to ship slamming",
   JOURNAL="Journal of offshore mechanics and Artic Engineering",
   VOLUME=21,
   PAGES="47",
   YEAR=1999,
   NOTE="{ \\ \em Disponible en Biblioteca ETSI Navales. Signatura G-20.3}"
}

@ARTICLE{sames2002,
   AUTHOR="Sames, P.C. and Marcouly, D. and Schellin, T.E.",
   TITLE="Sloshing in Rectangular and Cylindrical Tanks",
   JOURNAL="Journal of Ship Research",
   VOLUME=46,
   NUMBER=3,
   PAGES="186--200",
   MONTH="Sept.",
   YEAR=2002,
   NOTE="{ \\ \em 2 COPIAS}"
}

@ARTICLE{schumann1998,
   AUTHOR="Schumann, C.",
   TITLE="Calculation of the motion of liquid in a cargo tank",
   JOURNAL="Ship Technology Res",
   VOLUME=45,
   NUMBER=2,
   PAGES="39",
   MONTH="May",
   YEAR=1998,
   NOTE="{ \\ \em 1 COPIA. Debe ser del grupo de cura y
peric. la gente de hamburgo. hace un caso particular de anlisis
de un tanque cilndrico mediante VOF para la FS y con VOF para el
fluido. no tiene resultados experimentales}"
}

@ARTICLE{shaw1989a,
   AUTHOR="Shaw, S.W. and Rand, R.H.",
   TITLE="The transition to chaos in a simple mechanical system",
   JOURNAL="International Journal of Nonlinear Mechanics",
   VOLUME=24,
   NUMBER=1,
   PAGES="41--56",
   YEAR=1989,
   NOTE="{ \\ \em 1 COPIA}"
}

@ARTICLE{shaw1989b,
   AUTHOR="Shaw, J. and Shaw, S.W.",
   TITLE="The onset of chaos in a two-degree-of-freedom impacting system",
   JOURNAL="Journal of Applied Mechanics",
   VOLUME=46,
   PAGES="168--174",
   YEAR=1989,
   NOTE="{ \\ \em 1 COPIA}"
}

@TECHREPORT{stigter1996,
   AUTHOR="Stigter, C.",
   TITLE="The performance of U-tanks as a passive anti-rolling device",
   INSTITUTION="Nederlands Scheeps-Studiencentrum TNO",
   MONTH="Feb.",
   YEAR=1996,
   NOTE="{ \\ \em 1 COPIA}"
}

@ARTICLE{vandenbosch1966,
   AUTHOR="Van Den Bosch, J.J. and J.H. Vugts",
   TITLE="On Roll Damping by Free-Surface Tanks",
   JOURNAL="Trans. RINA",
   YEAR=1966,
   NOTE="{ \\ \em 2 COPIAS}"
}

@ARTICLE{vasta1961,
   AUTHOR="Vasta, J. and Giddings, A.J. and Taplin, A. and Sitlwell, J.J.",
   TITLE="Roll Stabilization by means of passive tanks",
   JOURNAL="Trans. Sname",
   YEAR=1961,
   NOTE="{ \\ \em 2 COPIAS}"
}

@ARTICLE{verhagen1965,
   AUTHOR="Verhagen, J.H.G. and Van Wijngaarden, L.",
   TITLE="Non-linear oscillations of fluid in a container",
   JOURNAL="J. Fluid Mech.",
   VOLUME=22,
   NUMBER=4,
   PAGES="737--751",
   YEAR=1965,
   NOTE="{ \\ \em 1 COPIA}"
}



@ARTICLE{watts1883,
   AUTHOR="Watts, P.",
   TITLE="On a Method of Reducing the rolling of Ships at Sea",
   JOURNAL="Trans. I.N.A.",
   PAGES="165",
   YEAR=1883,
   NOTE="{ \\ \em NO HAY. Primer artculo que introduce
tanques como medio para estabilizar barcos}"
}

@ARTICLE{watts1885,
   AUTHOR="Watts, P.",
   TITLE="The use of Water Chambers for Reducing the rolling of Ships at Sea",
   JOURNAL="Trans. I.N.A.",
   PAGES="p. 30",
   YEAR=1885,
   NOTE="{ \\ \em NO HAY. igual que el anterior}"
}

@BOOK{weaver,
   AUTHOR="Weaver, W. and Timoshenko, S.P. and Young, D.H.",
   TITLE="Vibration problems in engineering",
   PUBLISHER=" NO PUBLISHER NAME",
   YEAR="NO YEAR",
   NOTE="{ \\ \em NO HAY. Libro sobre vibraciones con buenos
estudios de movimientos oscilatorios y esas cosas. lo intentamos
utilizar con restevan para modelar el tanque como un pndulo}"
}

@PHDTHESIS{weng,
   AUTHOR="Weng, C.",
   TITLE="Roll Motion Stabilization for small fishing vessels",
   SCHOOL="Memorial University of Newfoundland, Canada",
   YEAR=?,
   NOTE="{ \\ \em 1 COPIA. Explica cosas sobre tanques
estabilizadores. Tiene rollo para colocar en los papers, y un
trabajo experimental grande pero no elabora ningn modelo ni nada}"
}

@ARTICLE{wright1979,
    AUTHOR="Wright, J.H.G. and Marshfield, W.B.",
    TITLE="Ship Roll Response and Capsize Behaviour in Beam Seas",
    JOURNAL="Meeting of the Royal Institution of Naval Architects",
    YEAR=1979,
   NOTE="{ \\ \em NO HAY}"
}

@INPROCEEDINGS{zhong1998,
   AUTHOR="Zhong, Z. and Falzarano, J.M. and Fithen, R.M.",
   TITLE="A Numerical Study of U-Tube Passive Anti-Rolling Tanks",
   BOOKTITLE="8th International Offshore and Polar Engineering Conference,
   Montreal, Canada",
   MONTH = "May",
   YEAR=1998,
   NOTE="{ \\ \em 1 COPIA. FEM para U.tanks}"
}





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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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%                                      BUBLES - multiphase
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%


@ARTICLE{abgrall2003,
   AUTHOR="Abgrall, R. and Saurel, R.",
   TITLE="Discrete equations for physical and numerical compressilbe multiphase mixtures",
   JOURNAL=JCP,
   VOLUME=186,
   PAGES="361--396",
   YEAR=2003,
   NOTE="{ \\ \em 1 COPIA. Trabaje un poco sobre
el en Monash03. These guys make averages of everything in the interphase..} \\
\cite*{aganin}: \textsl{1 COPIA. Monash03. Lo pille haciendo una
busqueda sobre bubbles in IJNMF. En una zona fina adyacente a la
burbuja, el fluido se trata como ligeramente compresible - esta
idea me parece interesante. Resuelve de distinto modo cada una de
las zonas, ie, la zona externa, la zona adyacente, y la propia
burbuja. No es un rising problem xq no hay gravedad. Tiene
simplificaciones muy
interesantes}"
}

@ARTICLE{aganin2000,
   AUTHOR="Aganin, A.A.",
   TITLE="Dynamics of a small bubble in a compressible fluid",
   JOURNAL="Int. Jour. for Num. Meth. in Fl.",
   VOLUME=33,
   PAGES="157--174",
   YEAR=2000,
   NOTE="{ \\ \em kk}"
}

@ARTICLE{baker1989,
   AUTHOR="Baker, G.R. and Moore, D.W.",
   TITLE="The rise and distortion of a two-dimensional gas bubble in an inviscid liquid",
   JOURNAL="Physics of Fluids",
   VOLUME=1,
   NUMBER=9,
   PAGES="1451--1459",
   MONTH="Sept.",
   YEAR=1989,
   NOTE="{ \\ \em 1 COPIA + ELEC. Monash03. Potential Flow.
Good for comparisons for high Reynolds number calculations. It
makes its
own comparisons with the experimental data of walters davidson}"
}

@ARTICLE{bell1992,
   AUTHOR="Bell, J.B. and Marcus, D.L.",
   TITLE="A second-order projection method for variable density flows",
   JOURNAL=JCP,
   VOLUME=101,
   PAGES="334",
   YEAR=1992,
   NOTE="{ \\ \em 1 COPIA}"
}

@ARTICLE{bhaga1981,
   AUTHOR="Bhaga, D. and Weber, M.E.",
   TITLE="Bubbles in viscous liquids: shapes, wakes and velocities",
   JOURNAL=JFM,
   VOLUME=105,
   PAGES="61--85",
   YEAR=1981,
   NOTE="{ \\ \em 1 COPIA. Sobre el que trabaje en Monash
2003. Tiene magnificas burbujas para diferentes numeros de Rn,
Weber, Morton, y Eotvos. The main parameter for bubbles is the
Morton number $Mo$, $Mo={g\nu^4 \over \rho\sigma^3}$ For
$Mo>4e-3$, $C_D$ and shape are a function of the $Rn$. In this
case, if the $Rn<110$ we have laminar closed wakes. If $Rn>110$ we
have open wakes that at higher $Rn$ can become turbulent. For high
$Mo$ the $C_D$ decreases monotonously with $Rn$. For low $Mo$
there is a minimum $C_D$ with $Rn$. As viscosity decreases, the
bubble looks more similar to thin spherical cap.
Quoted by Magdaunet etal in their review}"
}

@ARTICLE{calderbank1970,
   AUTHOR="Calderbank, P.H. and Johnson, D.S.L. and Loudon, J.",
   TITLE="Mechanics and mass transfer of single bubbles",
   JOURNAL="Chem. Eng. Sci.",
   VOLUME=25,
   YEAR=1970,
   NOTE="{ \\ \em 1 COPIA. Monash03. Explanation of the
shape of 3D bubbles in water, depending on $Rn$. Nothing about 2D
bubbles. Could be good for validation}"
}

@ARTICLE{chen1999,
   AUTHOR="Chen, L. and Garimella, S.V. and Reizes, J.A. and Leonardi, E.",
   TITLE="The development of bubble rising in a viscous fluid",
   JOURNAL=JFM,
   VOLUME=387,
   PAGES="61--96",
   YEAR=1999,
   NOTE="{ \\ \em ELEC}"
}

@PHDTHESIS{chesters1978,
   AUTHOR="Chesters, A.K.",
   TITLE="Fundamental problems in gas-liquid two-phase flow",
   SCHOOL="Technische Hogeschool Delft.",
   YEAR=1978,
   NOTE="{ \\ \em 1
COPIA DE UNA PARTE. Tiene soluciones a problemas particulares de
modo analtico bastante detalladas. Hace un anlisis dimensional
de la velocidad de ascension de una
burbuja q esta bien. hice copias de algunas pginas en monash03}"
}

@ARTICLE{collins1965,
   AUTHOR="Collins, R.",
   TITLE="Structure and behavior of wakes behind two-dimensional air bubbles in water",
   JOURNAL="Chemical Engineering Science",
   VOLUME=20,
   PAGES="851--853",
   YEAR=1965,
   NOTE="{ \\ \em 1 COPIA + ELEC. Monash03. $Rn=2.5e4$.
The shapes are purely 2D. Could be good for validation. The wakes
shapes are not in accordance with crabtree bridgwater. They claim
they are turbulent and open, and Collins found them closed. They
say it could be because of the separation between the two
glasses.}"
}

@ARTICLE{collins1995,
   AUTHOR="Collins, R.",
   TITLE="A simple model of the plane gas bubble in a finite liquid",
   JOURNAL=JFM,
   VOLUME=22,
   NUMBER=4,
   PAGES="763--771",
   YEAR=1995,
   NOTE="{ \\ \em 1 COPIA. Sobre el que trabaje en
Monash 2003. Only for water. Mainly slugs (bubbles in cylinders).
It gives a value of the rising velocity U as a function of the cap
curvature radius. The good thing is that is pure 2D and the
experiments are performed in a 2D device. I appears to be no
turbulence. Crabtree etal suggest the absence of turbulence is due
to the so thin separation between the two glasses of the
experiment. The experimental pictures are good for validation, but
for water, although too much focused on slugs}"
}

@ARTICLE{coquel1997,
   AUTHOR="Coquel, F. and El Amine, K. and Godlewski, E. and Perthame, B. and Rascle, P.",
   TITLE="A numerical method using upwind schemes for the resolution of two-phase flows",
   JOURNAL=JCP,
   VOLUME=136,
   PAGES="272--288",
   YEAR=1997,
   NOTE="{ \\ \em 1 COPIA. Trabaje un poco sobre el en
Monash03. Faucet Test Case. Quoted by karni kirr kurganov petrova}"
}

@ARTICLE{crabtree1967,
   AUTHOR="Crabtree, Bridgwater",
   TITLE="The wakes behind two-dimensional air bubbles",
   JOURNAL="Chem. Eng. Scie.",
   VOLUME=22,
   PAGES="1517--1518",
   YEAR=1967,
   NOTE="{ \\ \em 1 COPIA + ELEC. Monash03. It has
beautiful pictures good for validation of bubble shapes depending
on Rn. For $Rn\geq 1e2,1e3$, the shape is the same but the wake
changes from laminar to turbulent. They put the same volume of air
in fluid of
different viscosities. VERY GOOD.}"
}

@ARTICLE{dunivald1996,
   AUTHOR="Dunivald",
   TITLE="The rise velocity and shape of bubbles in pure water at high $Rn$",
   JOURNAL=JFM,
   VOLUME=321,
   PAGES="421--441",
   YEAR=1996,
   NOTE="{ \\ \em NO HAY. monash03. Interesting but
talks only about small bubbles, with a diameter of 0.33 to 1.0mm}"
}

@ARTICLE{dziubinski2003,
   AUTHOR="Dziubinski, M. and Orczykowska, M. and Budzynkski, P.",
   TITLE="Comments on bubble rising velocity in non-Newtonian liquids",
   JOURNAL="Chemical Engineering Science",
   VOLUME=58,
   PAGES="2441--2443",
   YEAR=2003,
   NOTE="{ \\ \em 1 COPIA. Monash03. Son comentarios
sobre la validez de una formula que permite calcular $C_D$. No
entiendo como define el coeficiente $C_D$. La idea seria encontrar
una medida de este tipo para nuestro caso que nos permitiese validar}"
}

@ARTICLE{harper1972,
   AUTHOR="Harper, J.F.",
   TITLE="The Motion of Bubbles and Drops Through Liquids",
   JOURNAL="Advances in applied mechanics",
   VOLUME=12,
   PAGES="79--89",
   YEAR=1972,
   NOTE="{ \\ \em 1 COPIA. Monash03. Los resultados en las
primeras secciones se basan en el numero de Morton, que solo
depende del liquido, pero que tiene en cuenta la tension
superficial and they are for spherical bubbles. $Mo={g eta^4\over
\rho\sigma^3}$. Later on, there is a section dedicated to
spherical-cap bubbles at high reynolds numbers. There is a
reference formula by Davies Taylor (1950) who related the speed of
rise U to the radius of curvature $r_c$ at the top stagnation
point by the simple formula $U^2=\frac{4}{9}g r_c$ He makes a nice
discussion about the skirts. It seems skirts are
not very important for us. I have copied just a few pages}"
}

@ARTICLE{hartunian1957,
   AUTHOR="Hartunian, R.A. and Sears, W.R.",
   TITLE="On the instability of small gas bubbles moving uniformly in various liquids",
   JOURNAL=JFM,
   VOLUME=3,
   PAGES="27--42",
   YEAR=1957,
   NOTE="{ \\ \em 1 COPIA. Monash03. Talks about the
zigzag helicoidal movements in bubbles. It appears for $Rn\approx
200$ and for a Webber number of $1.25$. Apparently it has to do
with the wakes, or instabilities due to surface tension combined
with hydrodynamic pressure. It has a paragraph very good about
bubbles. It is the one I have stuck in my NOTEbook. Quoted by
Dunivald.}"
}

@ARTICLE{hyman1984,
   AUTHOR="Hyman, J.M.",
   TITLE="Numerical methods for tracking interface",
   JOURNAL="Physica 12D",
   VOLUME=,
   PAGES="396--407",
   YEAR=1984,
   NOTE="{ \\ \em 1 COPIA.}"
}

@ARTICLE{hnat1976,
   AUTHOR="Hnat, J.G. and Buckmaster, J.D.",
   TITLE="Spherical cap bubbles and skirt formation",
   JOURNAL="Physics of Fluids",
   VOLUME=19,
   NUMBER=2,
   PAGES="182--193",
   YEAR=1976,
   NOTE="{ \\ \em 1 COPIA. Monash03. It has some validation
data regarding spherical cap bubbles with and without skirts, for
instance, the $\theta$ angle, rising speed in mineral oil
depending on the volume, etc. Not bad, but only 3d data.}"
}

@ARTICLE{karni2002,
   AUTHOR="Karni, S. and Kirr, E. and Kurganov, A. and Petrova, G.",
   TITLE="Compressible two-phase flows by central and upwind schemes",
   JOURNAL="NO JOURNAL TITLE",
   YEAR=2002,
   NOTE="{ \\ \em 1 COPIA. Trabaje un poco sobre el en Monash03}"
}

@ARTICLE{legendre1998,
   AUTHOR="Legendre, Magnaudet",
   TITLE="The lift force on a spherical bubble in a viscous linear shear flow",
   JOURNAL=JFM,
   VOLUME=368,
   PAGES="81--126",
   YEAR="1998",
   NOTE="{ \\ \em NO HAY. Monash03. No lo tengo. Le eche
un vistazo. Es un mtodo numrico no muy interesante}"
}

@ARTICLE{li2000,
   AUTHOR="Li, Y. and Zhang, J. and Fan, L.",
   TITLE="Discrete-phase simulation of single bubble rise
    behavior at elevated pressures in a bubble column",
   JOURNAL="Chemical Engineering Science",
   VOLUME=55,
   PAGES="4597--4609",
   YEAR=2000,
   NOTE="{ \\ \em 1 COPIA. Monash03. Utilizan VOF para track las
interfaces y utilizan un esquema de proyeccin que hace que las
cosas sean incompresibles. Esta muy bien explicado como va la
parte implcita y la parte explcita para llegar a la ecuacin de
Poisson. En la interfase promedian con la propia funcin F del
VOF. Presentan resultados experimentales de "rise velocity" que
concuerdan muy bien, y presentan unas fotos muy cutres de la forma
bajo diferentes presiones que no se puede decir gran cosa de
ellas. Presentan perfiles de velocidad de sus clculos en los que
se aprecia que en la interfase las velocidades son bastante mas
grandes que es lo que nos pasa
a nosotros}"
}

@ARTICLE{magnaudet2000,
   AUTHOR="Magnaudet, J. and Eames, I.",
   TITLE="The Motion of High-Reynolds-Number Bubbles in Inhomogeneous Flows",
   JOURNAL="Annu. Rev. Fluid Mech.",
   VOLUME=32,
   PAGES="659--708",
   YEAR=2000,
   NOTE="{ \\ \em 1 COPIA. Monash03. Interesante la
introducci\'on por las referencias bibliogrficas. Luego se la
con el tema del drag y las masas aadidas, que no se si es muy
importante realmente. Hay resultados respecto al drag que podran
servir para comparaciones experimentales pero creo que s\'olo
sirven para small bubbles y en 3D. Too Spherical. The
final conclusions are enlightening}"
}

@ARTICLE{martin11982,
   AUTHOR="Martin, W.W. and Chandler, G.M.",
   TITLE="The local measurement of size and velocity of bubbles rising in liquids",
   JOURNAL="Appl. Sci. Res.",
   VOLUME=38,
   PAGES="239--246",
   YEAR=1982,
   NOTE="{ \\ \em NO HAY. Monash03. Quoted by Magdnauet
eames. Talks only about rising speed close to the nozzle and to
the surface. I saw it but not copied. The bubbles are very small,
diameter 0.1mm to 1.0 mm}"
}

@ARTICLE{marxworthy1996,
   AUTHOR="Marxworthy, et al.",
   TITLE="Experiments on the rise of air bubbles in clean viscous liquids",
   JOURNAL=JFM,
   VOLUME=321,
   PAGES="421--441",
   YEAR=1996,
   NOTE="{ \\ \em NO HAY. monash03. Too complicated}"
}

@ARTICLE{meiron,
   AUTHOR="Meiron, D.I.",
   TITLE="On the stability of gas bubbles rising in an inviscid fluid",
   JOURNAL=JFM,
   VOLUME=198,
   PAGES="101--114",
   YEAR=?,
   NOTE="{ \\ \em NO HAY. Monash03. Hay una inestabilidad al
subir el Rn. En un determinado momento, empieza la bubble una
espiral, un zigzag. Este tipo investiga el origen de esto, pero a
nosotros nos parece demasiado complicado, aunque el Reynolds nos
afecta, pero el Eotvos number no, o lo que es lo mismo en este
caso, es para una determinada tension superficial. hartunian sears
hacen un trabajo similar de estudio de esa inestabilidad. No se si
esa inestabildad aparecer en una burbuja 2d. no lo creo. Hace un
analisis sobre la forma de una rising bubble sin aceleracion
(steady state)
y sin viscosity (todo depende del Weber)}"
}

@ARTICLE{miksis1982,
   AUTHOR="Miksis, M.J. and Vandenbroeck, J.M. and Keller, J.B.",
   TITLE="Rising Bubbles",
   JOURNAL=JFM,
   VOLUME=123,
   PAGES="31--41",
   YEAR=1982,
   NOTE="{ \\ \em 1 COPIA. Monash03. Shape of a rising
bubble in an incompressible viscous fluid. It is 3d axial
symmetric. This is a possibility we have not explored much. The
treatment is that of a potential flow. The formulation of the
potential problem is very interesting since it takes into account
the viscous normal stresses and the normal velocity in the
interface. Results are quite poor. In terms of validation, there
is a formula by Davies-Taylor that gives the radio of the
spherical cap as a function of the rising speed or sth like that.
It is not clear for us this formula because there is the radius
and the rising speed and both things are unknown. Results
correspond to a quite
low Weber number, ie high surface tension}"
}

@ARTICLE{rowe1964,
    AUTHOR="Rowe and et al.",
    TITLE="A NOTE on the initial motion and break-up of a two-dimensional air bubble in water",
    JOURNAL="Chem. Eng. Sci.",
    VOLUME=19,
    PAGES="81--82",
    YEAR=1964,
   NOTE="{ \\ \em 2 COPIAS + ELEC. Monash03. Quoted by wegener
etal. It has very interesting pictures of an air bubble in water,
in which the initial shape is not as nice as the walters davidson
experiment. Good for validation although the RN is $10^5$
which is much bigger than ours}"
}

@ARTICLE{saurel1999,
    AUTHOR="Saurel, R. and Abgrall, R.",
    TITLE="A simple method for compressible multifluid flows",
    JOURNAL="Siam J. Sci. Comput.",
    VOLUME=21,
    NUMBER=3,
    PAGES="1115-1145",
    YEAR=1999,
   NOTE="{ \\ \em 1 COPIA.  Trabaje un poco sobre el en
Monash03. These guys make averages of everything in the
interphase... It has a continuation in abgrall saurel. Quoted by
karni kirr kurganov petrova}"
}

@ARTICLE{shoemaker1969,
    AUTHOR="Shoemaker, P.D. and De Chazal, Marc",
    TITLE="Dimpled and skirted liquid drops moving through viscous media",
    JOURNAL="Chemical Engineering Science",
    VOLUME=24,
    PAGES="797--799",
    YEAR=1969,
   NOTE="{ \\ \em 1 COPIA. Monash03. It has some
beautiful pictures of DROPS.
Claims skirts are due to circulation}"
}

@ARTICLE{sussman1994,
    AUTHOR="Sussman, M. and Smereka, P. and Osher, S.",
    TITLE="A Level Set Approach for Computing Solutions to Incompressible Two-Phase Flow",
    JOURNAL=JCP,
    VOLUME=114,
    PAGES="146--159",
    YEAR=1994,
 %  NOTE="{ \\ \em 1 COPIA. Hace burbujas con Level Set.
%Es el que cita colagrossi landrini para comparar con sus burbujas}"
}

@ARTICLE{toumi,
    AUTHOR="Toumi, I. and Kumbaro, A. and Seignole, V. and Paillere, H.",
    TITLE="Towards Multi-dimensional Simulation of Two-Phase Flow using an approximate Riemann Solver",
    JOURNAL="NO JOURNAL TITLE",
    YEAR="NO YEAR",
   NOTE="{ \\ \em 1 COPIA. monash03. paper duro como pocos.
Dice que es two-phase flows pero no tengo muy claro como establece
el problema, o sea, q no llego a saber que problea resuelve. No
entiendo como evoluciona la interfase. En este paper a uno le
queda la impresion de que hay que estudiar mas sobre ecuaciones
hiperbolicas y su relacion
con los sistemas conservativos, o sea, el Leveque}"
}

@ARTICLE{unverdi1992,
    AUTHOR="Unverdi, S.O. and Tryggvason, G.",
    TITLE="A font-tracking method for viscous, incompressible, multifluid flows",
    JOURNAL=JCP,
    VOLUME=100,
    PAGES="25--37",
    YEAR=1992,
   NOTE="{ \\ \em 1 COPIA. Lo pille en Monash2003 solo por
la parte de validation of the bubble. Refereed by sussman smereka
osher. It has results for rho ratio 40, so it is not in our scope.
Not Interesting.
He shows nice bubbles with skirts but for ratio 40}"
}

@ARTICLE{walters1962,
    AUTHOR="Walters, J.K. and Davidson, J.F.",
    TITLE="The initial motion of a gas bubble formed in an inviscid fluid",
    JOURNAL=JFM,
    VOLUME=12,
    PAGES="408",
    YEAR=1962,
   NOTE="{ \\ \em 1 COPIA. Monash03. Tiene una teoria
potencial para explicar el movimiento inicial de una burbuja
circular 2D (only the very first moments). The most interesting is
the exp. device, with which it is possible to create perfect
initially circular bubbles. The pictures of the initial shape of
the bubble are awesome, and used in many references, like baker
moore and others. As a matter of fact, sussman smereka osher
compare the high Reynolds number results with baker moore who has
taken them from walters davidson. It is said here that the initial
vorticity that generates the tongue that
goes into the bubble causes the detachment of the two small bubbles}"
}

@ARTICLE{walters1963,
    AUTHOR="Walters, J.K. and Davidson, J.F.",
    TITLE="The initial motion of a gas bubble formed in an inviscid fluid. Part II:
    The three-dimensional bubble and the toroidal bubble",
    JOURNAL=JFM,
    VOLUME=17,
    PAGES="321--336",
    YEAR=1963,
   NOTE="{ \\ \em 1 COPIA.}"
}

@ARTICLE{wegener1973,
    AUTHOR="Wegener, P.P. and Parlange, J.Y.",
    TITLE="Spherical-cap bubbles rising singly in extended liquids",
    JOURNAL=ARFM,
    VOLUME=5,
    PAGES="79--100",
    YEAR=1973,
   NOTE="{ \\ \em 1 COPIA. monash03. Gives lots of
references (most of them already checked and reviewed here). Talks
about $theta$ angle being a function of the $Rn$, that remains
constant to 55 deg. for $Rn$ over 1e2 approximately}"
}




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%                    IMPACT & mecaflu : discutidos con Chou, Leo et al.
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%






@ARTICLE{peregrine1995,
    AUTHOR="Peregrine, D.H and Kalliadasis, S.K.",
    TITLE="Filling flows, cliff erosion and cleaning flow",
    JOURNAL=JFM,
    VOLUME=310,
    PAGES="365--374",
    YEAR=1996,
   NOTE="{ Razona sobre el impulso de presin, que es solucin de una ecuacin de Laplace,
   y resuleven algunos casos}"
}

@ARTICLE{peregrine2003,
    AUTHOR="Peregrine, D.H",
    TITLE="Water-wave impact on walls",
    JOURNAL=ARFM,
    VOLUME=35,
    PAGES="23--43",
    YEAR=2003,
   NOTE="{Review sobre impacto en paredes, describe la pressure-impulse theory y sus aplicaciones}"
}





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%                                      BREAKING WAVES
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%



@ARTICLE{galvin1968,
   AUTHOR="Galvin, C.J. jr.",
   TITLE="Breaker type classfication on three laboratory beaches",
   JOURNAL="J. Geophys. Res.",
   VOLUME=73,
   NUMBER=12,
   PAGES="3651--3659",
   YEAR=1968,
   NOTE="{ \\ \em 1 COPIA. Articulo de referencia por lo de clasificacin de olas rompientes}"
}

@ARTICLE{peregrine1983,
    AUTHOR="Peregrine, D.H",
    TITLE="Breaking waves on beaches",
    JOURNAL=ARFM,
    VOLUME=15,
    PAGES="149--178",
    YEAR=1983,
   NOTE="{ }"
}

@ARTICLE{new1985,
    AUTHOR="PNew, A.L. and McIver, P.M. and Peregrine, D.H.",
    TITLE="Computations of overturning waves",
    JOURNAL=JFM,
    VOLUME=150,
    PAGES="233--251",
    YEAR=1985,
    NOTE="{ de Iafrati}"
}

@ARTICLE{duncan2001,
    AUTHOR="Duncan, J.H.",
    TITLE="Spilling breakers",
    JOURNAL=ARFM,
    VOLUME=33,
    PAGES="519--547",
    YEAR=2001,
    NOTE="{ de Iafrati}"
}

@ARTICLE{rapp1990,
    AUTHOR="Rapp, R.J. and Melville, W.K.",
    TITLE="Laboratory measurements of deep-water breaking waves",
    JOURNAL=PTRS,
    VOLUME=331,
    PAGES="735--800",
    YEAR=1990,
    NOTE="{ de Iafrati}"
}

@ARTICLE{dommermuth1988,
    AUTHOR="Dommermuth, D.G. and Yue, D.K.P. and Lin, W.M. and Rapp, R.J. and Chan, E.S. and Melville, W.K.",
    TITLE="Deep-water plunging breakers, a comparison between potential theory and experiments",
    JOURNAL=JFM,
    VOLUME=189,
    PAGES="423--442",
    YEAR=1988,
    NOTE="{ de Iafrati : sera interesante hacer estos ensayos con SPH}"
}

@ARTICLE{bonmarin1989,
    AUTHOR="Bonmarin, P.",
    TITLE="Geometric properties of deep-water breaking waves",
    JOURNAL=JFM,
    VOLUME=209,
    PAGES="405--433",
    YEAR=1989,
    NOTE="{ de Iafrati : de referenca para el estudio del breaking}"
}

@ARTICLE{longuet-higgins,
    AUTHOR="Longuet-Higgins, M.S.",
    TITLE="Progress toward understanding how waves break",
    JOURNAL=,
    VOLUME=,
    PAGES="",
    YEAR=,
    NOTE="{ de Iafrati }"
}

@ARTICLE{longuet-higgins1980,
    AUTHOR="Longuet-Higgins, M.S.",
    TITLE="A technique for time-dependent free-surface flows",
    JOURNAL=PTRS,
    VOLUME=371,
    PAGES="441--451",
    YEAR=1980,
    NOTE="{ de Iafrati }"
}

@INPROCEEDINGS{tulin2000,
    AUTHOR="Tulin, M.P. and Landrini, M.",
    TITLE="Breaking waves in the Ocean and around Ships",
    BOOKTITLE="23rd Symp on Naval Hydrodynamics. Val de Reuil, France",
    MONTH="Sept.",
    YEAR=2000,
   NOTE="{ habla de SPH tambien}"
}




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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%                                      OTHERS
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%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%







@BOOK{brillouin1946,
   AUTHOR="Brillouin, L.",
   TITLE="Wave propagation in periodic structures (Electric Filters and Crystal Lattices)",
   PUBLISHER="Dover Publications",
   YEAR=1946,
   NOTE="{ \\ \em kk}"
}

@ARTICLE{cox2001,
    AUTHOR="Cox, D.T. and Scott, C.P.",
    TITLE="Exceedance probability for wave overtopping on a fixed deck",
    JOURNAL=OE,
    NUMBER=28,
    PAGES="707--721",
    YEAR=2001,
   NOTE="{ \\ \em ELEC. green water...}"
}

@ARTICLE{cox2002,
    AUTHOR="Cox, D.T. and Ortega, J.A.",
    TITLE="Laboratory observations of green water overtopping a fixed deck",
    JOURNAL=OE,
    NUMBER=29,
    PAGES="1827--1840",
    YEAR=2002,
   NOTE="{ \\ \em ELEC. green water}"
}

@BOOK{fox,
   AUTHOR="Fox and Mcdonald",
   TITLE="Introduction to fluid mechanics",
   PULISHER="John Wiley \& Sons Inc",
   YEAR="NO YEAR",
   NOTE="{ \\ \em kk}"
}

@ARTICLE{galvin1968,
   AUTHOR="Galvin, C.J. jr.",
   TITLE="Breaker type classfication on three laboratory beaches",
   JOURNAL="J. Geophys. Res.",
   VOLUME=73,
   PAGES="3651--3659",
   YEAR=1968,
   NOTE="{ \\ \em 1 COPIA. Articulo de referencia por lo de clasificacin de olas rompientes}"
}

@ARTICLE{hirt1981,
   AUTHOR="Hirt, C.W. and Nichols, B.D.",
   TITLE="Volume of fluid (VOF) mehtod for the dynamics of free boundaries",
   JOURNAL=JCP,
   VOLUME=39,
   PAGES="201",
   YEAR=1981,
   NOTE="{ \\ \em 1 COPIA. ARTICULO LLAVE DE VOF METHOD}"
}

@ARTICLE{leonard1980,
   AUTHOR="Leonard, A.",
   TITLE="Vortex methods for flow simulation",
   JOURNAL=JCP,
   VOLUME=37,
   PAGES="289--335",
   YEAR=1980,
   NOTE="{ \\ \em kk}"
}

@PHDTHESIS{mandell1994,
   AUTHOR="Mandell, D.A. and Wingate, C.A.",
   TITLE="Prediction of material strength and fracture of glass using the SPHINX smooth particle
    hydrodynamics",
   SCHOOL="Los Alamos National Laboratory",
   YEAR=1994,
   NOTE="{ \\ \em kk}"
}

@BOOK{nakorayov1993,
    AUTHOR="Nakorayov, V.E. and Pokusaev, B.G. and Shreiber, I.R.",
    TITLE="Wave propagation in gas-liquid media",
    PUBLISHER="CRC Press, Inc.",
    YEAR=1993,
   NOTE="{ \\ \em kk}"
}

@ARTICLE{ruskin1984,
    AUTHOR="Ruskin, Leal",
    TITLE="??",
    JOURNAL=JFM,
    VOLUME=148,
    PAGES="19--35",
    YEAR=1984,
   NOTE="{ \\ \em kk}"
}

@ARTICLE{vonneumann1950,
    AUTHOR="Von Neumann, J. and Ritchtmyer, R.D.",
    TITLE="A new method for the numerical calculation of hydrodynamics shocks",
    JOURNAL="J. Appl. Phys.",
    VOLUME=21,
    PAGES="232--247",
    YEAR=1950,
   NOTE="{ \\ \em NO HAY. Artculo
de donde sale la viscosidad
artificial de Monaghan, pero para diferencias finitas}"
}







@ARTICLE{,
   AUTHOR="",
   TITLE="",
   JOURNAL="",
   VOLUME=,
   NUMBER=,
   PAGES="",
   YEAR=,
   NOTE="{}"
}
